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q(0)(q(0)) over bar continuum events. This indicates that the fragmentation of quark and gluon to hadron follows the same mechanism. We give a reasonable interpretation to final baryon multiplicity that is enhanced by 2.5 times in direct Y decays compared to the continuum through our calculating results. But we cannot find this similar phenomenon in direct J/phi decays. [author_in] => [Liu, X.-M] Department of Physics, Shandong University, Ji\'nan 250100, China@@@[ Zhang, X.-Y] Department of Physics, Shandong University, Ji\'nan 250100, China@@@[ Wang, H.-L] Department of Physics, Shandong University, Ji\'nan 250100, China@@@[ Wang, Y.-S] Department of Physics, Shandong University, Ji\'nan 250100, China [publication_type] => J [begin_page] => 557 [author_en] => Liu, XM; Zhang, XY; Wang, HL; Wang, YS [volume] => 26 [get_data] => 2018-08-29 [publisher] => SCIENCE CHINA PRESS [keyword_en] => high-energy reaction; gluons fragmentation; multiplicities of particle;; universal mass dependence [format_publication_cn] => 1e4ba0a3cae0934c4c5e0c2149a71c3c35052158 [keyword_plu] => UNIVERSAL MASS DEPENDENCE; PARTICLE-PRODUCTION; PRODUCTION-RATES; MESON [publication_iso] => High Energy Phys. Nucl. Phys.-Chin. Ed. [format_title_en] => 60e6373b869025e1fe88751699b5ce0b410706256 [publisher_city] => BEIJING [hx_id] => 2377,2378,2371 [reference_No] => 15 [email] => xmliu@sdu.edu.cn [cite_awos] => 0 [wos_No] => WOS:000176245500003 [wos_sub] => Physics, Nuclear; Physics, Particles & Fields [research_area] => Physics [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [title_en] => Fragmentation character of resonance events in BEPC e(+) e(-) annihilation [format_publication_en] => 447a5ff97055faf0b52669582cc267d5690401559 [jl_language] => chinese [jl_publication_cn] => 高能物理与核物理 [jl_article_dt] => 期刊论文 [jl_publication_en] => highenergyphysicsandnuclearphysicschineseedition [jl_country] => 中国,中国 [jl_keyword_en] => ,multiplicitiesofparticle,highenergyreaction,gluonsfragmentation,universalmassdependence [jl_keyword_cn] => 高能反应,普适质量关系,胶子碎裂,强子多重数 [jl_clc] => o5714 [jl_publisher] => sciencechinapress [author_id] => 25735 [author_test] => Array ( [0] => Array ( [sure] => 1 [irmagnum] => 0 [u_index] => 0 [name] => 张学尧 [sys_author_id] => Array ( [0] => 25735 ) [irtag] => 0 [t_index] => 0 [person_id] => 25735 ) ) [company_id] => 133,5 [sys_subject_sort] => 0,0 [college_parent_id] => 133,5 [company_test] => Array,Array [sys_author_id_arr] => 25735张学尧 [cscd_No] => CSCD:990845 [jl_publication_cn_publication_en] => highenergyphysicsandnuclearphysicschineseedition,高能物理与核物理 [jl_keyword_cn_keyword_en] => multiplicitiesofparticle,高能反应,highenergyreaction,胶子碎裂,强子多重数,普适质量关系,gluonsfragmentation,universalmassdependence [sys_author_id] => 25735 [format_cscd_No] => 5a879618ad78e53e7f3d0d3c89ed3399-1989734284 [format_title_en_publication_en_pub_year] => 199a9feb724546057adbcd26ffdb5ae8-2135452335 [format_wos_No] => c6805125c55bd5305fa2f972336d20c11039644666 [format_title_en_issn_pub_year] => 64c2a0fbe982d7659b3d3d4c81ed2fef-1948174406 [format_scopus_No] => cee176fc84ed924f407c7c3fc00abd76484942838 [classification_pub] => KNWLD [standard_in] => Department of Physics, Shandong University, Ji\'nan 250100, China [cauthor] => Liu, XM(xmliu@sdu.edu.cn) [datebase] => Scopus [sys_priority_field] => 76 [scopus_No] => 2-s2.0-0442267295 [id] => 3w1EvmUBFjIhTVEb_o5Z [tags] => 0 ) [4] => Array ( [batch2] => 1,2,6 [batch] => 3249,3250,3252,3254,3243,3241 [tag] => 0 [abstract_cn] => 利用一个描述强子质量谱成功的夸克模型确定出得到的强子多重数普适质量关系〈n〉 =aexp( -bm)中的参数b,发现对于介子、重子是一个普适的常数 .利用这个质量公式给出计算各种粒子多重数的表达式 ,进而以高能e+e- 湮没为例计算出各种粒子多重数与实验以及其他模型做了比较 ,表明这个没有任何假定的质量关系同样能够解释实验 [keyword_cn] => 普适质量关系;夸克模型;强子多重数 [article_id] => 664937,616338,28161,495404,332245,156641 [clc] => O572.21 [author_jg] => [王海龙] 山东大学物理系, 济南, 山东 250100, 中国.@@@[刘希明] 山东大学物理系, 济南, 山东 250100, 中国.@@@[王玉水] 山东大学物理系, 济南, 山东 250100, 中国 [format_title_cn_publication_cn_pub_year] => 8cdde3274ab6ddc3c91c0bbdea29c90c679386677 [hints] => 5 [issue] => 5 [sys_level_num] => 2_3 [sys_jg_type] => 9,11,5 [format_issn_issue_page_pub_year] => 3bbf42d9bbf7bbd4b67b9b4a300bdba8-600158639 [source_type] => 351 [pub_year] => 2002 [pub_date] => MAY [pages] => 6 [from_id] => 76,75,73,80,78,85 [author_cn] => 王海龙,刘希明,王玉水 [issn] => 0254-3052 [uri] => https://www.scopus.com/inward/record.uri?eid=2-s2.0-0347616923&partnerID=40&md5=f3d7e154465f660dcf377c1093ce990f [publication_cn] => 高能物理与核物理 [title_cn] => 高能e~+e~-湮没强子多重数的质量关系 [CSSN] => 11-5641/O4 [SYS_TAG] => 3 [format_title_cn_issn_pub_year] => 0d08b91ba5f152248e7a9695a1412c3b1884604368 [page] => 471-476 [hb_type] => 2 [article_dt] => Article [hb_batch] => title_cn_publication_cn_pub_year_2_3 [publication_en] => HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION [cite_wos] => 0 [fund_No] => 北京正负电子对撞机国家实验室开放课题资助 [check_3Y] => 0 [language] => Chinese [delivery_No] => 551RV [format_title] => a0edc0aa56ef4a529d3180280d9837b81202322035 [cauthor_ad] => [Wang, HL]Shandong Univ, Dept Phys, Jinan 250100, Peoples R China. [author_fn] => Wang, HL; Liu, XM; Wang, YS [reference] => ALEPH Collab, 1998, Phys. Rep., V294, P1@@@CHLIAPNIKOV PV, 1995, PHYS LETT B, V345, P313, DOI@@@10.1016/0370-2693(94)01613-H@@@Chliapnikov PV, 1999, PHYS LETT B, V462, P341, DOI@@@10.1016/S0370-2693(99)00910-7@@@Chun S. B., 1998, Physics Reports, V292, P239, DOI@@@10.1016/S0370-1573(97)00047-1@@@Gasiorowicz, 1981, J. Phys., V49, P954@@@[刘希明 Liu Ximing], 2002, [高能物理与核物理, High Energy Physics and Nuclear@@@Physics], V26, P313@@@Particle Data Group, 2000, Eur. Phys. J. C, V15, P226@@@WEBBER BR, HEPPH9912399@@@刘希明, 2001, 高能物理与核物理, V25, P377 [publication_29] => HIGH ENERG PHYS NUC [end_page] => 476 [abstract_en] => In this paper, the parameter b in the universal mass relation = a exp ( - bm) is obtained in virtue of a quark model successfully applied in the field of mass spectroscopy and is found to be a universal parameter for both baryons and mesons. Using this mass relation we give the expression for calculating the multiplicities of all the particles, and calculate the yields of various final state particles and compare it with the data from e(+)e(-) annihilation experiments and other models. The result shows this universal mass relation can explain experiment as well without any additional assumption. [author_in] => [Wang, H.-L] Department of Physics, Shandong University, Ji\'nan 250100, China@@@[ Liu, X.-M] Department of Physics, Shandong University, Ji\'nan 250100, China@@@[ Wang, Y.-S] Department of Physics, Shandong University, Ji\'nan 250100, China [publication_type] => J [begin_page] => 471 [author_en] => Wang, HL; Liu, XM; Wang, YS [volume] => 26 [get_data] => 2018-08-29 [publisher] => SCIENCE CHINA PRESS [keyword_en] => universal mass dependence; quark model; multiplicities of hadron [format_publication_cn] => 1e4ba0a3cae0934c4c5e0c2149a71c3c35052158 [publication_iso] => High Energy Phys. Nucl. Phys.-Chin. Ed. [format_title_en] => 9eafd96d79867f0ca04a7b7a19751100-1000420957 [publisher_city] => BEIJING [hx_id] => 2377,2378,2371 [reference_No] => 9 [email] => xmliu@sdu.edu.cn [cite_awos] => 0 [wos_No] => WOS:000175576000006 [wos_sub] => Physics, Nuclear; Physics, Particles & Fields [research_area] => Physics [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [title_en] => Mass dependence of hadron production rates in e(+)e(-) annihilations at high energy [format_publication_en] => 447a5ff97055faf0b52669582cc267d5690401559 [jl_language] => chinese [jl_publication_cn] => 高能物理与核物理 [jl_article_dt] => 期刊论文 [jl_publication_en] => highenergyphysicsandnuclearphysicschineseedition [jl_country] => 中国,中国 [jl_keyword_en] => quarkmodel,multiplicitiesofhadron,universalmassdependence [jl_keyword_cn] => 普适质量关系,强子多重数,夸克模型 [jl_clc] => o57221 [jl_publisher] => sciencechinapress [company_id] => 133,5 [sys_subject_sort] => 0,0 [college_parent_id] => 133,5 [company_test] => Array,Array [author_id] => [author_test] => Array ( [0] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 0 [name] => 王海龙 [irtag] => 7 [t_index] => 0 [person_id] => 26412 ) ) [sys_author_id_arr] => [cscd_No] => CSCD:993346 [jl_publication_cn_publication_en] => highenergyphysicsandnuclearphysicschineseedition,高能物理与核物理 [jl_keyword_cn_keyword_en] => quarkmodel,夸克模型,强子多重数,普适质量关系,multiplicitiesofhadron,universalmassdependence [sys_author_id] => [format_cscd_No] => be85e89a9139fe9274369711780a4bdc244187585 [format_title_en_publication_en_pub_year] => 0a44cc8021bdd374c8f46ce28410c752-258312601 [format_wos_No] => 75a3a63b23efebbf6ff6e01bde6f1485761338226 [format_title_en_issn_pub_year] => 56bab779488fb589e8570da0823d6390807957579 [format_scopus_No] => 82bb1db4e26e53a4b222cd627a51ba5f-1116632092 [classification_pub] => KNWLD [standard_in] => Department of Physics, Shandong University, Ji\'nan 250100, China [cauthor] => Wang, HL(xmliu@sdu.edu.cn) [datebase] => Scopus [sys_priority_field] => 76 [scopus_No] => 2-s2.0-0347616923 [id] => aQ1GvmUBFjIhTVEbXN9j [tags] => 0 ) [5] => Array ( [batch2] => 1,2 [batch] => 3250,3249,3241,3252 [tag] => 0 [abstract_cn] => 发现Υ→ 3g三胶子碎裂的末态强子多重数满足与e+e- →q0 q0 事例相同的普适质量关系 ,表明胶子、夸克碎裂成强子时有相同的规律性 .不需引入任何其它假定 ,就自然解释了Υ→ 3g三胶子碎裂末态重子多重数增高的重要特征 . [keyword_cn] => 三胶子衰变;粒子多重数;普适质量关系 [article_id] => 332437,663536,595382,156794 [clc] => O412.3 [author_jg] => [刘希明,张学尧,王海龙,王玉水]山东大学物理系,山东大学物理系,山东大学物理系,山东大学物理系 济南250100,济南250100,济南250100,济南250100 [format_title_cn_publication_cn_pub_year] => e15461b5bedd3f67b5f284f7d3c19d1c-823336556 [hints] => 4 [issue] => 2 [sys_level_num] => 2_3 [sys_jg_type] => 9,10,5 [format_issn_issue_page_pub_year] => 424ee62a1b1206ab528ea973bc5a6f39-1961677651 [source_type] => 351 [pub_year] => 2002 [pub_date] => FEB [pages] => 5 [from_id] => 75,73,80,78 [author_cn] => 刘希明,张学尧,王海龙,王玉水 [issn] => 0254-3052 [uri] => http://kns.cnki.net/kns/detail/detail.aspx?FileName=KNWL200202006&DbName=CJFQ2002 [publication_cn] => 高能物理与核物理 [title_cn] => Υ三胶子碎裂粒子产率的普适质量关系 [CSSN] => 11-5641/O4 [SYS_TAG] => 3 [format_title_cn_issn_pub_year] => c0689a5af24460b38dea04d28f6e44a7-487798280 [page] => 129-133 [hb_type] => 2 [article_dt] => Article [jl_publication_cn] => 高能物理与核物理 [jl_article_dt] => 期刊论文 [jl_keyword_cn] => 三胶子衰变,普适质量关系,粒子多重数 [jl_clc] => o4123 [author_in] => [Liu, XM; Zhang, XY; Wang, HL; Wang, YS]Shandong Univ, Dept Phys, Jinan 250100, Peoples R China. [company_id] => 133,0,5 [sys_subject_sort] => 0,0 [college_parent_id] => 133,5 [company_test] => Array,Array [author_id] => 25735 [author_test] => Array ( [0] => Array ( [sure] => 1 [irmagnum] => 0 [u_index] => 2 [name] => 张学尧 [sys_author_id] => Array ( [0] => 25735 ) [irtag] => 0 [t_index] => 0 [person_id] => 25735 ) ) [sys_author_id_arr] => 25735张学尧 [jl_publication_cn_publication_en] => 高能物理与核物理 [jl_keyword_cn_keyword_en] => 三胶子衰变,粒子多重数,普适质量关系 [sys_author_id] => 25735 [hb_batch] => grant_no [cite_wos] => 0 [publication_en] => HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION [fund_No] => 北京正负电子对撞机实验室开放课题基金 [check_3Y] => 0 [language] => Chinese [delivery_No] => 522YP [cauthor_ad] => [Liu, XM]Shandong Univ, Dept Phys, Jinan 250100, Peoples R China. [format_title] => 303bda836b0d51ce9a556ee5d9028b502038989924 [author_fn] => Liu, XM; Zhang, XY; Wang, HL; Wang, YS [reference] => ALBRECHT H, 1987, PHYS LETT B, V183, P419, DOI@@@10.1016/0370-2693(87)90988-9@@@@@@ALBRECHT H, 1988, Z PHYS C PART FIELDS, V39, P177@@@ALBRECHT H, 1989, PHYS LETT B, V230, P161@@@ALBRECHT H, 1988, PHYS LETT B, V215, P329@@@ANDERSSON B, 1983, PHYS REP, V97, P31, DOI 10.1016/0370-1573(83)90080-7@@@CHLIAPNIKOV PV, 1995, PHYS LETT B, V345, P313, DOI@@@10.1016/0370-2693(94)01613-H@@@Chliapnikov PV, 1996, PHYS LETT B, V381, P483, DOI@@@10.1016/0370-2693(96)00655-7@@@CHUN SB, 1993, PHYS LETT B, V308, P153, DOI 10.1016/0370-2693(93)90616-P@@@MARCHESIM G, 1994, NUCL PHYS, V238, P1@@@Scheck H., 1988, Nuclear Physics B, Proceedings Supplements, V1B, P291,@@@DOI 10.1016/0920-5632(88)90345-3@@@Szczekowski M, 1996, PHYS LETT B, V374, P225, DOI@@@10.1016/0370-2693(96)00217-1@@@Szczkowski M, 1995, Phys. Lett.B, V359, P287@@@田丽丽, 1993, 高能物理与核物理, V17, P717@@@刘希明, 2001, 高能物理与核物理, V25, P777 [format_title_en_issn_pub_year] => aca1322fbe0ddd775b235d33d533d8d5-896867935 [publication_29] => HIGH ENERG PHYS NUC [end_page] => 133 [abstract_en] => In this paper we found that the final state hadron multiplicities in Y-->3g fragmentation satisfy the same general mass dependence as in e(+) e(-) -->q(0)(q) over bar (0) events. This indicates that the fragmentation of quarks and gluons to hadrons follows the same mechanism. The important character of increment of the baryon multiplicity in Y-->3g fragmentation is interpreted naturally without any other assumptions. [publication_type] => J [begin_page] => 129 [author_en] => Liu, XM; Zhang, XY; Wang, HL; Wang, YS [format_cscd_No] => eebd41aa1c5a7c6d29bcede39b11ea14-209903576 [volume] => 26 [publisher] => SCIENCE CHINA PRESS [get_data] => 2018-08-29 [keyword_en] => three gluons fragmentation; multiplicity of particle; universal mass; dependence [keyword_plu] => E(+)E(-) ANNIHILATIONS; PRODUCTION-RATES; MESON [format_publication_cn] => 1e4ba0a3cae0934c4c5e0c2149a71c3c35052158 [publication_iso] => High Energy Phys. Nucl. Phys.-Chin. Ed. [format_title_en_publication_en_pub_year] => 5201a0c76091c9b990c63de79c23c3bf-1044034713 [format_title_en] => d04d276e79b53931d4b043071734719a-853307131 [publisher_city] => BEIJING [cite_cscd] => 0 [publication_info] => 0254-3052(2002)26:2<129:GSJZSL>2.0.TX;2-B [hx_id] => 2377,2371 [email_c] => xmliu@sdu.edu.cn [email] => xmliu@sdu.edu.cn [reference_No] => 13 [cite_awos] => 0 [cscd_No] => CSCD:990811 [wos_No] => WOS:000173924800007 [format_wos_No] => 9d5852a3e19d1ba2c5c68ae36a8841a1-2107623529 [wos_sub] => Physics, Nuclear; Physics, Particles & Fields [research_area] => Physics [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [title_en] => Mass dependence of the particle multiplicity in Gamma three gluon fragmentation [format_publication_en] => 447a5ff97055faf0b52669582cc267d5690401559 [id] => BQ5HvmUBFjIhTVEbgCrH [tags] => 0 ) [6] => Array ( [issn] => 0254-3052 [reference] => Altarelli G, yellow report CERN 96-01, Vol. 2, P128@@@Altarelli G, yellow report CERN 96-01, Vol. 1, p124,190,249@@@ANDERSSON B, 1983, PHYS REP, V97, P31, DOI 10.1016/0370-1573(83)90080-7@@@ANDERSSON B, 1986, NUCL PHYS B, V264, P29, DOI@@@10.1016/0550-3213(86)90471-2@@@BOHRER A, 1997, PHYS REP, V291, P107@@@Corcella G, 2001, J HIGH ENERGY PHYS, DOI 10.1088/1126-6708/2001/01/010@@@Eden P, 1999, EUR PHYS J C, V8, P435, DOI 10.1007/s100529901091@@@Friberg C, 1997, NUCL PHYS B, V490, P289, DOI@@@10.1016/S0550-3213(97)00064-3@@@GUSTAFSON G, 1994, Z PHYS C PART FIELDS, V64, P659, DOI@@@10.1007/BF01957774@@@GUSTAFSON G, 1988, PHYS LETT B, V209, P90, DOI@@@10.1016/0370-2693(88)91836-9@@@Jin Y, In preparation@@@Lonnblad L, 1996, Z PHYS C PART FIELDS, V70, P107, DOI@@@10.1007/s002880050087@@@MARCHESINI G, 1984, NUCL PHYS B, V238, P1, DOI@@@10.1016/0550-3213(84)90463-2@@@[邵凤兰 Shao Fenglan], 2002, [高能物理与核物理, High Energy Physics and Nuclear@@@Physics], V26, P779@@@SJOSTRAND T, 1994, PHYS REV LETT, V72, P28, DOI@@@10.1103/PhysRevLett.72.28@@@SJOSTRAND T, 1994, COMPUT PHYS COMMUN, V82, P74, DOI@@@10.1016/0010-4655(94)90132-5@@@SJOSTRAND T, 1994, Z PHYS C PART FIELDS, V62, P281, DOI@@@10.1007/BF01560244@@@WANG Q, 1995, PHYS REV D, V52, P1469, DOI 10.1103/PhysRevD.52.1469@@@Wang Q, 1996, PHYS LETT B, V388, P346, DOI 10.1016/S0370-2693(96)01141-0@@@Wang Q, 2000, PHYS REV D, V62, DOI 10.1103/PhysRevD.62.054004@@@WANG Q, 2001, Physical Review D, V64, P012006@@@WEBBER BR, 1984, NUCL PHYS B, V238, P492, DOI@@@10.1016/0550-3213(84)90333-X@@@邵凤兰, 2001, 高能物理与核物理, V25, P710 [batch2] => 1,2,6 [format_cscd_No] => 15abdd18b0f104a8ebbb01a32502e256-803531224 [begin_page] => 1103 [tag] => 0 [research_area] => Physics [publication_info] => 0254-3052(2002)26:11<1103:YEEHSF>2.0.TX;2-6 [abstract_cn] => 借助JETSET事例产生器对e+e- →h′s反应中的类双喷注事例进行研究 .研究发现 ,在QCD微扰与非微扰的界面上 ,部分子系统的色中性流和色分离单态两种不同色联接方式导致了强子末态某些可观测量的显著差别 .因此 ,它们可以用于判别部分子的色联接方式 . [keyword_cn] => 类双喷注事例;色中性流;色分离单态;强子化 [fund_No] => 国家自然科学基金(10075031)资助 [format_title_en_publication_en_pub_year] => 25f2b5318b1f1c4b738e6e9d990fbdb31667212279 [publication_type] => J [author_jg] => [邵凤兰,谢去病,李世渊]山东大学物理与微电子学院,山东大学物理与微电子学院,山东大学物理与微电子学院 济南250100,济南250100,济南250100 [format_title_cn_publication_cn_pub_year] => 8b8ae62f507935b4f9ccdf5b0fc996181864266517 [cite_awos] => 1 [from_id] => 76,75,73,80,85,78 [issue] => 11 [hx_id] => 2377,2378,2371 [sys_level_num] => 1_1 [cite_cscd] => 1 [sys_jg_type] => 9,0,5 [format_issn_issue_page_pub_year] => 80d3c9a841b808b09520c656c04c22cc-2135441928 [title_en] => Study of colour connections via two-jet like events in e(+) e(-) annihilation [volume] => 26 [author_fn] => Shao, FL; Xie, QB; Li, SY [pub_year] => 2002 [check_180] => 0 [keyword_en] => two-jet like event; colour neutral flow; colour separate singlet state;; hadronization [end_page] => 1109 [article_id] => 19285,665042,495023,156649,552629,331906 [pages] => 7 [hints] => 4 [author_cn] => 邵凤兰,谢去病,李世渊 [language] => Chinese [source_type] => 351 [reference_No] => 21 [cscd_No] => CSCD:1020272 [batch] => 3249,3243,3252,3254,3250,3241 [publication_en] => HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION [abstract_en] => We study the different properties of the two-jet like events in e(+) e(-) --> Z(0)-hadrons under different color connections with the aid of the event generator JETSET. We find that the two kinds of colour connections at the interface of perturbative and nonperturbative QCD, i.e., colour neutral flow and colour separate singlet, lead to significant differences for some observables in the final states. Therefore, the measurements of these observables can be used to distinguish these two kinds of colour connections. [author_in] => [Shao, F.-L] Sch. of Physics and Microelectronics, Shandong University, Ji\'nan 250100, China@@@[ Xie, Q.-B] Sch. of Physics and Microelectronics, Shandong University, Ji\'nan 250100, China@@@[ Li, S.-Y] Sch. of Physics and Microelectronics, Shandong University, Ji\'nan 250100, China [format_title_en_issn_pub_year] => 0f78949ee4b6ed175d11ece4c045b54d-545271620 [check_3Y] => 0 [publication_cn] => 高能物理与核物理 [title_cn] => 用e~+e~-→h′s反应中类双喷注事例研究部分子末态的色联接 [SYS_TAG] => 3 [format_title_cn_issn_pub_year] => 873079727ff7d378c01d1aa23a4b76cc-202624224 [page] => 1103-1109 [hb_type] => 2 [article_dt] => Article [hb_batch] => issn_issue_page_pub_year_1_7 [cite_wos] => 1 [delivery_No] => 616YQ [format_title] => 4712faadc6fca672f106f520d9ab29fa1011374392 [cauthor_ad] => [Shao, FL]Shandong Univ, Sch Phys & Microelect, Jinan 250100, Peoples R China. [publication_29] => HIGH ENERG PHYS NUC [author_en] => Shao, FL; Xie, QB; Li, SY [get_data] => 2018-08-29 [publisher] => SCIENCE CHINA PRESS [format_publication_cn] => 1e4ba0a3cae0934c4c5e0c2149a71c3c35052158 [keyword_plu] => PROBABILITY; PARTON; STATES [publication_iso] => High Energy Phys. Nucl. Phys.-Chin. Ed. [format_title_en] => 7b4dfadef3693f138c6c6689b15a850d-134236261 [publisher_city] => BEIJING [pub_date] => NOV [wos_No] => WOS:000179331700002 [sys_priority_field] => 76 [wos_sub] => Physics, Nuclear; Physics, Particles & Fields [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [format_publication_en] => 447a5ff97055faf0b52669582cc267d5690401559 [jl_language] => chinese [jl_publication_cn] => 高能物理与核物理 [jl_article_dt] => 期刊论文 [jl_publication_en] => highenergyphysicsandnuclearphysicschineseedition [jl_country] => 中国 [jl_keyword_en] => ,colourneutralflow,twojetlikeevent,colourseparatesingletstate,hadronization [jl_keyword_cn] => 色中性流,色分离单态,类双喷注事例,强子化 [jl_publisher] => sciencechinapress [cite_wanfang] => 1 [clc] => O572.33 [CSSN] => 11-5641/O4 [jl_clc] => o4 [author_id] => [author_test] => Array ( ) [company_id] => 133,0,5,161,35 [sys_subject_sort] => 0,0,0,0 [college_parent_id] => 133,5,161,35 [company_test] => Array,Array,Array,Array [sys_author_id_arr] => 21858李世渊 [jl_publication_cn_publication_en] => highenergyphysicsandnuclearphysicschineseedition,高能物理与核物理 [jl_keyword_cn_keyword_en] => twojetlikeevent,色中性流,colourseparatesingletstate,强子化,colourneutralflow,色分离单态,类双喷注事例,hadronization [format_scopus_No] => ffd946b57998a4351a742dde78225bf5-240371541 [classification_pub] => KNWLD [format_wos_No] => f750bd0f98e7f023159575ea6d8ffa6c532825251 [uri] => http://kns.cnki.net/kns/detail/detail.aspx?FileName=KNWL200211002&DbName=CJFQ2002 [standard_in] => Sch. of Physics and Microelectronics, Shandong University, Ji\'nan 250100, China [datebase] => Scopus [scopus_No] => 2-s2.0-0345752580 [jl_author_test] => uirtypical3,uirtstag0,uuindex3,upersonid21858,usureu0,utindex0,uirinspecttag0,uirauthortype0,uirtag0,unameuu674eu4e16u6e0a [sys_author_jg_last_arr] => 中国,中国,中国 [jl_company_test] => uparentidu5,unameuu5faeu7535u5b50u5b66u9662,uorgidu5,unameuu7269u7406u5b66u9662,uircu0,ulevelu1,uorgidu35,uparentidu35 [sys_author_in_last_arr] => china [sys_author_id] => [id] => fgZ1vWUBFjIhTVEbQYEP [tags] => 0 ) [7] => Array ( [issn] => 0254-3052 [author_gro] => BES Collaboration [delivery_No] => 515LB [batch2] => 1,2 [hb_batch] => 3241 [tag] => 0 [author_en] => Bai, JZ; Ban, Y; Bian, JG; Chang, JF; Chen, AD; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Cheng, BS; Chi, SP; Chu, YP; Cui, XZ; Dai, YS; Dong, LY; Du, ZZ; Fu, HY; Fu, LP; Gao, CS; Gu, SD; Guo, ZJ; Guo, YN; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, QH; Hu, T; Huang, XP; Hunag, GS; Huang, YZ; Ji, XB; Jiang, CH; Jin, Y; Ke, ZJ; Lai, YF; Li, D; Li, HB; Li, HH; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XQ; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, TR; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, FC; Ma, JM; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Sheng, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, X; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LS; Wang, M; Wang, M; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Xi, DM; Xia, XM; Xie, XX; Xu, GF; Xu, Y; Xue, ST; Yan, ML; Yan, WB; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yuan, Y; Zeng, Y; Zhang, BY; Zhang, CC; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhong, XC; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS [abstract_en] => The decay mode of J/psi-->pidegrees3(pi(+)pi(-)) was studied very little before. There axe no informations except branching ratios for this channel in PDG book which based on less than 0.2 x 10(6) J/psi events of MARK I. Now, BES I has a data sample of 7.8 x 10(6) J/psi events, we can make more accurate results than MARK I. Total of 3290 +/- 43 J/psi-->pidegrees3(pi(+)pi(-)) events including 1275 +/- 86 J/psi-->omega2(pi(+)pi(-)) events are selected. J/psi-->pidegrees3(pi(+)pi(-)) and J/psi-->omega2(pi(+)pi(-)) events have been generated with MC simulition for calculating events selection efficiency. BES I result is: Br (J/psi-->pidegrees3(pi(+)pi(-))) = (2.52 +/- 0.06 +/- 0.43)% and Br(J/psi-->omega2(pi(+)pi(-))) = ( 1.31 +/- 0.09 +/- 0.21)%. Meanwhile, we studied the invariant Mass of 4pi and omegapipi to find interesting signals. It seems that there is a peak at about 1.74GeV in the invarianat mass spectrum of 4pi, and a enhancement was also found at about 1.9GeV in the invariant mass spectrum of omegapipi. It is not clear whether the), are from resonances or background. Therefore, more work in detail is still going on. [publication_type] => J [keyword_plu] => FLUX-TUBE MODEL; 18 GEV/C; HYBRID MESONS; EXOTIC MESON; LATTICE; SYSTEM; DECAYS; STATE; QCD [author_in] => [Bai, JZ; Ban, Y; Bian, JG; Chang, JF; Chen, AD; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Cheng, BS; Chi, SP; Chu, YP; Cui, XZ; Dai, YS; Dong, LY; Du, ZZ; Fu, HY; Fu, LP; Gao, CS; Gu, SD; Guo, ZJ; Guo, YN; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, QH; Hu, T; Huang, XP; Hunag, GS; Huang, YZ; Ji, XB; Jiang, CH; Jin, Y; Ke, ZJ; Lai, YF; Li, D; Li, HB; Li, HH; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XQ; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, TR; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, FC; Ma, JM; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Sheng, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, X; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LS; Wang, M; Wang, M; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Xi, DM; Xia, XM; Xie, XX; Xu, GF; Xu, Y; Xue, ST; Yan, ML; Yan, WB; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yuan, Y; Zeng, Y; Zhang, BY; Zhang, CC; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhong, XC; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS]Chinese Acad Sci, Inst High Energy Phys, Beijing 100039, Peoples R China.@@@[Bai, JZ; Ban, Y; Bian, JG; Chang, JF; Chen, AD; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Cheng, BS; Chi, SP; Chu, YP; Cui, XZ; Dai, YS; Dong, LY; Du, ZZ; Fu, HY; Fu, LP; Gao, CS; Gu, SD; Guo, ZJ; Guo, YN; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, QH; Hu, T; Huang, XP; Hunag, GS; Huang, YZ; Ji, XB; Jiang, CH; Jin, Y; Ke, ZJ; Lai, YF; Li, D; Li, HB; Li, HH; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XQ; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, TR; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, FC; Ma, JM; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Sheng, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, X; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LS; Wang, M; Wang, M; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Xi, DM; Xia, XM; Xie, XX; Xu, GF; Xu, Y; Xue, ST; Yan, ML; Yan, WB; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yuan, Y; Zeng, Y; Zhang, BY; Zhang, CC; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhong, XC; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS] Univ Sci & Technol China, Dept Modern Phys, Hefei 230026, Peoples R China.@@@[Bai, JZ; Ban, Y; Bian, JG; Chang, JF; Chen, AD; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Cheng, BS; Chi, SP; Chu, YP; Cui, XZ; Dai, YS; Dong, LY; Du, ZZ; Fu, HY; Fu, LP; Gao, CS; Gu, SD; Guo, ZJ; Guo, YN; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, QH; Hu, T; Huang, XP; Hunag, GS; Huang, YZ; Ji, XB; Jiang, CH; Jin, Y; Ke, ZJ; Lai, YF; Li, D; Li, HB; Li, HH; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XQ; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, TR; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, FC; Ma, JM; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Sheng, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, X; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LS; Wang, M; Wang, M; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Xi, DM; Xia, XM; Xie, XX; Xu, GF; Xu, Y; Xue, ST; Yan, ML; Yan, WB; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yuan, Y; Zeng, Y; Zhang, BY; Zhang, CC; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhong, XC; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS] Shandong Univ, Dept Phys, Jinan 250100, Peoples R China.@@@[Bai, JZ; Ban, Y; Bian, JG; Chang, JF; Chen, AD; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Cheng, BS; Chi, SP; Chu, YP; Cui, XZ; Dai, YS; Dong, LY; Du, ZZ; Fu, HY; Fu, LP; Gao, CS; Gu, SD; Guo, ZJ; Guo, YN; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, QH; Hu, T; Huang, XP; Hunag, GS; Huang, YZ; Ji, XB; Jiang, CH; Jin, Y; Ke, ZJ; Lai, YF; Li, D; Li, HB; Li, HH; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XQ; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, TR; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, FC; Ma, JM; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Sheng, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, X; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LS; Wang, M; Wang, M; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Xi, DM; Xia, XM; Xie, XX; Xu, GF; Xu, Y; Xue, ST; Yan, ML; Yan, WB; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yuan, Y; Zeng, Y; Zhang, BY; Zhang, CC; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhong, XC; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS] Zhejiang Univ, Dept Phys, Hangzhou 310028, Peoples R China.@@@[Bai, JZ; Ban, Y; Bian, JG; Chang, JF; Chen, AD; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Cheng, BS; Chi, SP; Chu, YP; Cui, XZ; Dai, YS; Dong, LY; Du, ZZ; Fu, HY; Fu, LP; Gao, CS; Gu, SD; Guo, ZJ; Guo, YN; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, QH; Hu, T; Huang, XP; Hunag, GS; Huang, YZ; Ji, XB; Jiang, CH; Jin, Y; Ke, ZJ; Lai, YF; Li, D; Li, HB; Li, HH; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XQ; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, TR; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, FC; Ma, JM; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Sheng, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, X; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LS; Wang, M; Wang, M; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Xi, DM; Xia, XM; Xie, XX; Xu, GF; Xu, Y; Xue, ST; Yan, ML; Yan, WB; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yuan, Y; Zeng, Y; Zhang, BY; Zhang, CC; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhong, XC; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS] Shanghai Jiao Tong Univ, Dept Appl Phys, Shanghai 200030, Peoples R China.@@@[Bai, JZ; Ban, Y; Bian, JG; Chang, JF; Chen, AD; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Cheng, BS; Chi, SP; Chu, YP; Cui, XZ; Dai, YS; Dong, LY; Du, ZZ; Fu, HY; Fu, LP; Gao, CS; Gu, SD; Guo, ZJ; Guo, YN; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, QH; Hu, T; Huang, XP; Hunag, GS; Huang, YZ; Ji, XB; Jiang, CH; Jin, Y; Ke, ZJ; Lai, YF; Li, D; Li, HB; Li, HH; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XQ; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, TR; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, FC; Ma, JM; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Sheng, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, X; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LS; Wang, M; Wang, M; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Xi, DM; Xia, XM; Xie, XX; Xu, GF; Xu, Y; Xue, ST; Yan, ML; Yan, WB; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yuan, Y; Zeng, Y; Zhang, BY; Zhang, CC; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhong, XC; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS] Peking Univ, Dept Tech Phys, Beijing 100871, Peoples R China.@@@[Bai, JZ; Ban, Y; Bian, JG; Chang, JF; Chen, AD; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Cheng, BS; Chi, SP; Chu, YP; Cui, XZ; Dai, YS; Dong, LY; Du, ZZ; Fu, HY; Fu, LP; Gao, CS; Gu, SD; Guo, ZJ; Guo, YN; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, QH; Hu, T; Huang, XP; Hunag, GS; Huang, YZ; Ji, XB; Jiang, CH; Jin, Y; Ke, ZJ; Lai, YF; Li, D; Li, HB; Li, HH; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XQ; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, TR; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, FC; Ma, JM; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Sheng, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, X; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LS; Wang, M; Wang, M; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Xi, DM; Xia, XM; Xie, XX; Xu, GF; Xu, Y; Xue, ST; Yan, ML; Yan, WB; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yuan, Y; Zeng, Y; Zhang, BY; Zhang, CC; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhong, XC; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS] Hua Zhong Normal Univ, Inst Particle Phys, Wuhan 430079, Peoples R China.@@@[Bai, JZ; Ban, Y; Bian, JG; Chang, JF; Chen, AD; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Cheng, BS; Chi, SP; Chu, YP; Cui, XZ; Dai, YS; Dong, LY; Du, ZZ; Fu, HY; Fu, LP; Gao, CS; Gu, SD; Guo, ZJ; Guo, YN; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, QH; Hu, T; Huang, XP; Hunag, GS; Huang, YZ; Ji, XB; Jiang, CH; Jin, Y; Ke, ZJ; Lai, YF; Li, D; Li, HB; Li, HH; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XQ; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, TR; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, FC; Ma, JM; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Sheng, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, X; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LS; Wang, M; Wang, M; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Xi, DM; Xia, XM; Xie, XX; Xu, GF; Xu, Y; Xue, ST; Yan, ML; Yan, WB; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yuan, Y; Zeng, Y; Zhang, BY; Zhang, CC; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhong, XC; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS] CCAST, Beijing 100080, Peoples R China.@@@[Bai, JZ; Ban, Y; Bian, JG; Chang, JF; Chen, AD; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Cheng, BS; Chi, SP; Chu, YP; Cui, XZ; Dai, YS; Dong, LY; Du, ZZ; Fu, HY; Fu, LP; Gao, CS; Gu, SD; Guo, ZJ; Guo, YN; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, QH; Hu, T; Huang, XP; Hunag, GS; Huang, YZ; Ji, XB; Jiang, CH; Jin, Y; Ke, ZJ; Lai, YF; Li, D; Li, HB; Li, HH; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XQ; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, TR; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, FC; Ma, JM; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Sheng, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, X; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LS; Wang, M; Wang, M; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Xi, DM; Xia, XM; Xie, XX; Xu, GF; Xu, Y; Xue, ST; Yan, ML; Yan, WB; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yuan, Y; Zeng, Y; Zhang, BY; Zhang, CC; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhong, XC; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS] Nankai Univ, Coll Phys, Tianjin 300071, Peoples R China.@@@[Bai, JZ; Ban, Y; Bian, JG; Chang, JF; Chen, AD; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Cheng, BS; Chi, SP; Chu, YP; Cui, XZ; Dai, YS; Dong, LY; Du, ZZ; Fu, HY; Fu, LP; Gao, CS; Gu, SD; Guo, ZJ; Guo, YN; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, QH; Hu, T; Huang, XP; Hunag, GS; Huang, YZ; Ji, XB; Jiang, CH; Jin, Y; Ke, ZJ; Lai, YF; Li, D; Li, HB; Li, HH; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XQ; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, TR; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, FC; Ma, JM; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Sheng, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, X; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LS; Wang, M; Wang, M; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Xi, DM; Xia, XM; Xie, XX; Xu, GF; Xu, Y; Xue, ST; Yan, ML; Yan, WB; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yuan, Y; Zeng, Y; Zhang, BY; Zhang, CC; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhong, XC; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS] Henan Normal Univ, Coll Phys & Informat Engn, Xinxiang 453002, Peoples R China.@@@[Bai, JZ; Ban, Y; Bian, JG; Chang, JF; Chen, AD; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Cheng, BS; Chi, SP; Chu, YP; Cui, XZ; Dai, YS; Dong, LY; Du, ZZ; Fu, HY; Fu, LP; Gao, CS; Gu, SD; Guo, ZJ; Guo, YN; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, QH; Hu, T; Huang, XP; Hunag, GS; Huang, YZ; Ji, XB; Jiang, CH; Jin, Y; Ke, ZJ; Lai, YF; Li, D; Li, HB; Li, HH; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XQ; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, TR; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, FC; Ma, JM; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Sheng, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, X; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LS; Wang, M; Wang, M; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Xi, DM; Xia, XM; Xie, XX; Xu, GF; Xu, Y; Xue, ST; Yan, ML; Yan, WB; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yuan, Y; Zeng, Y; Zhang, BY; Zhang, CC; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhong, XC; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS] Wuhan Univ, Coll Phys & Elect Informat Sci, Wuhan 430072, Peoples R China.@@@[Bai, JZ; Ban, Y; Bian, JG; Chang, JF; Chen, AD; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Cheng, BS; Chi, SP; Chu, YP; Cui, XZ; Dai, YS; Dong, LY; Du, ZZ; Fu, HY; Fu, LP; Gao, CS; Gu, SD; Guo, ZJ; Guo, YN; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, QH; Hu, T; Huang, XP; Hunag, GS; Huang, YZ; Ji, XB; Jiang, CH; Jin, Y; Ke, ZJ; Lai, YF; Li, D; Li, HB; Li, HH; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XQ; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, TR; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, FC; Ma, JM; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Sheng, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, X; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LS; Wang, M; Wang, M; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Xi, DM; Xia, XM; Xie, XX; Xu, GF; Xu, Y; Xue, ST; Yan, ML; Yan, WB; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yuan, Y; Zeng, Y; Zhang, BY; Zhang, CC; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhong, XC; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS] Hunan Univ, Dept Appl Phys, Changsha 410082, Peoples R China.@@@[Bai, JZ; Ban, Y; Bian, JG; Chang, JF; Chen, AD; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Cheng, BS; Chi, SP; Chu, YP; Cui, XZ; Dai, YS; Dong, LY; Du, ZZ; Fu, HY; Fu, LP; Gao, CS; Gu, SD; Guo, ZJ; Guo, YN; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, QH; Hu, T; Huang, XP; Hunag, GS; Huang, YZ; Ji, XB; Jiang, CH; Jin, Y; Ke, ZJ; Lai, YF; Li, D; Li, HB; Li, HH; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XQ; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, TR; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, FC; Ma, JM; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Sheng, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, X; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LS; Wang, M; Wang, M; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Xi, DM; Xia, XM; Xie, XX; Xu, GF; Xu, Y; Xue, ST; Yan, ML; Yan, WB; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yuan, Y; Zeng, Y; Zhang, BY; Zhang, CC; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhong, XC; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS] Liaoning Univ, Dept Phys, Shenyang 110036, Peoples R China. [publisher_city] => BEIJING [cauthor_back] => Bai, JZ [get_data] => 2018-08-29 [format_title_en_publication_en_pub_year] => 6fb8167116738d08457b67623659c3b4 [begin_page] => 8 [cite_wos] => 1 [check_3Y] => 0 [cite_awos] => 1 [from_id] => 80,73,85 [cauthor_ad] => [Bai, JZ]Chinese Acad Sci, Inst High Energy Phys, Beijing 100039, Peoples R China. [school_id] => 117 [cauthor_order] => 1 [research_area] => Physics [sys_level_num] => 1_7 [publisher] => SCIENCE CHINA PRESS [sys_jg_type] => 8,5,10 [format_issn_issue_page_pub_year] => 9b559ce3d866738a46b406c5266f88bd [title_en] => Branching ratios of J/psi ->pi(0)3(pi(+) pi(-)) [publication_29] => HIGH ENERG PHYS NUC [author_fn] => Bai, JZ; Ban, Y; Bian, JG; Chang, JF; Chen, AD; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Cheng, BS; Chi, SP; Chu, YP; Cui, XZ; Dai, YS; Dong, LY; Du, ZZ; Fu, HY; Fu, LP; Gao, CS; Gu, SD; Guo, ZJ; Guo, YN; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, QH; Hu, T; Huang, XP; Hunag, GS; Huang, YZ; Ji, XB; Jiang, CH; Jin, Y; Ke, ZJ; Lai, YF; Li, D; Li, HB; Li, HH; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XQ; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, TR; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, FC; Ma, JM; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Sheng, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, X; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LS; Wang, M; Wang, M; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Xi, DM; Xia, XM; Xie, XX; Xu, GF; Xu, Y; Xue, ST; Yan, ML; Yan, WB; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yuan, Y; Zeng, Y; Zhang, BY; Zhang, CC; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhong, XC; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS [pub_year] => 2002 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [check_180] => 0 [keyword_en] => J/psi decay; branching ratio; invariant mass [end_page] => 16 [pub_date] => JAN [pages] => 9 [format_wos_No] => efe21d5aa4f6ad770865487a9da03c0d [hints] => 3 [volume] => 26 [researcherID] => Wang, Meng/C-4888-2013 [language] => Chinese [source_type] => 351 [issue] => 1 [reference_No] => 17 [batch] => 3241,3254,3252 [publication_en] => HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION [hx_id] => 2371 [sys_update_time] => 2018-09-05 15:29:29 [format_title_en_issn_pub_year] => 74190e6bfd0b7b95f673e05d3691547c [publication_iso] => High Energy Phys. Nucl. Phys.-Chin. Ed. [article_id] => 332537,167361,37233 [wos_sub] => Physics, Nuclear; Physics, Particles & Fields [orcID] => Wang, Meng/0000-0003-4067-1127 [SYS_TAG] => 3 [wos_No] => WOS:000173496100002 [page] => 8-16 [hb_type] => 2 [article_dt] => Article [jl_language] => chinese [jl_article_dt] => 期刊论文 [jl_publication_en] => highenergyphysicsandnuclearphysicschineseedition [jl_country] => 纳米比亚,瑞士,印度,苏里南,中国,西班牙,波兰,秘鲁 [jl_keyword_en] => invariantmass,jpsidecay,branchingratio [jl_publisher] => sciencechinapress [author_jg] => [白景芝;卞建国;常劲帆;陈爱东;陈和生;陈江川;陈鑫东;陈元柏;程宝森;迟少鹏;初元萍;崔象宗;杜志珍;富洪玉;高翠山;顾树棣;郭子金;过雅南;韩世温;韩缨;何景棠;何炬;何康林;贺翔;衡月昆;洪涛;胡贵云;胡海明;胡琼辉;胡涛;黄秀萍;黄因智;姜春华;金艳;柯尊建;赖元芬;李德;李家才;李金;李佩琴;李秋菊;李仁英;李蔚;李卫国;李小男;刘斌;刘怀民;刘靖;刘荣光;刘天容;刘延;刘钟秀;柳峰;吕峰;吕军光;吕志坚;罗小兰;马恩成;马基茂;毛泽普;孟祥承;莫晓虎;聂晶;聂振东;漆纳丁;邱进发;阙友昆;荣刚;邵毓莺;沈本蔚;沈定力;沈红;沈肖雁;盛华义;石峰;史焕章;宋晓非;孙汉生;孙良峰;孙永昭;唐晓;唐素秋;童国梁;王近珠;王君;王岚;王灵淑;王曼;王萌;王佩良;王平;王少敏;王运永;王至勇;魏诚林;吴宁;席德明;夏小米;谢小希;许国发;徐晔;薛生田;鄢文标;严武光;杨长友;杨春敏;杨贵安;杨洪勋;杨晓峰;于传松;喻纯旭;俞国威;袁野;张炳云;张长春;张达华;张会领;张建;张家文;张良生;张琳;张勤俭;张少强;张月元;章红宇;章平;赵棣新;赵海文;赵京伟;赵平平;赵维仁;赵豫斌;赵政国;郑建平;郑林生;郑志鹏;钟学初;周宝庆;周高明;周莉]中国科学院高能物理研究所,北京,100039 北京大学技术物理系,北京,100871 中国科学技术大学近代物理系,合肥,230026 浙江大学物理系,杭州,310028 中国高等科学技术中心,北京,100080 湖南大学应用物理系,长沙,410082 山东大学物理系,济南,250100 华中师范大学粒子物理研究所,武汉,430079 南开大学物理学院,天津,300071 武汉大学物理与电子信息学院,武汉,430072 河南师范大学物理与信息工程学院,新乡,453002 辽宁大学物理系,沈阳,110036 上海交通大学应用物理系,上海,200030,中国 [keyword_cn] => J/ψ衰变;分支比;不变质谱;测定;BESI;北京谱仪;介子;奇特性; [format_title] => 99c31b9bd59ccf2785a07026e86faade917941275 [cite_wanfang] => 1 [clc] => O572.33 O572.21 [title_cn] => J/ψ→π^03(π^+π^—)分支比的测定 [format_publication_cn] => 1e4ba0a3cae0934c4c5e0c2149a71c3c35052158 [publication_cn] => 高能物理与核物理 [format_title_en] => 05f7e0e3ae80d2878a3a5ed6bb2238851599155922 [CSSN] => 11-1825/O4 [abstract_cn] => 用BESⅠ的7.8×106J/ψ数据更为精确地测定了J/ψ→π03(π+π-)和J/ψ→ω2(π+π-)的分支比(Br(J/ψ→π03(π+π-))=(2.52±0.06±0.43)s,Br(J/ψ→ω2(π+π-))=(1.31±0.09±0.21)s. 同时对4π不变质量谱和ωππ不变质量谱进行研究分析,试图观察是否存在有兴趣的信号. 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[sys_author_jg_last_arr] => 中国 [sys_author_in_last_arr] => peoplesrchina [sys_subject_sort] => 0,0,0,0 [college_parent_id] => 133,5,15,142 [company_test] => Array,Array,Array,Array [id] => qAifvWUBFjIhTVEbg-oX [tags] => 0 ) [8] => Array ( [batch2] => 1,2,6 [uri] => https://www.scopus.com/inward/record.uri?eid=2-s2.0-0346383834&partnerID=40&md5=636d6f9807642c9c31b867e6fc6c0a8d [tag] => 0 [abstract_cn] => 在e+e- →h′s反应中 ,末态重子介子比及重子反重子关联 ,在流行的强子化模型中 ,仅有JETSET事件发生器能通过调节专用附加参数较好拟合实验 ,被认为是检验强子化模型的最敏感可观察量 .用微扰QCD所允许的末态部分子1 0 0 %的色分离联接 ,取代JETSET中大Nc 近似下的色中性流联接 ,对这些可观察量作了预言 .并与JETSET原有预言及最新实验结果作了比较 .发现色分离联接同样甚至更好地与这些实验符合 ,这表明原来用色中性流联接与这些实验事实基本符合 ,并不意味着色中性流就是非微扰QCD选择的色联接方式 ,1 0 0 %的色分离联接也是可能的 . [keyword_cn] => 色分离联接;;重子介子比;;重子反重子关联 [fund_No] => 国家自然科学基金(10075031)资助 [article_id] => 332057,399474,495189,616508,661319,65858,156647 [clc] => O572.242 [author_jg] => [邵凤兰] 山东大学物理与微电子学院, 济南, 山东 250100, 中国.@@@[谢去病] 山东大学物理与微电子学院, 济南, 山东 250100, 中国 [format_title_cn_publication_cn_pub_year] => 63099d69e6714c82286f3095c7ca441c69573376 [hints] => 3 [issue] => 8 [author_first] => 邵凤兰 [sys_level_num] => 2_3 [sys_jg_type] => 0 [format_issn_issue_page_pub_year] => 6882f420cb9b4dc91b2ad4894001fcf0-1469943432 [source_type] => 351 [pub_year] => 2002 [pub_date] => AUG [pages] => 7 [from_id] => 76,75,74,73,80,78,85 [author_cn] => 邵凤兰;谢去病 [issn] => 0254-3052 [batch] => 3249,3250,3252,3254,3246,3243,3241 [publication_cn] => 高能物理与核物理 [title_cn] => 两种色联接下的重子介子比及重子反重子关联 [CSSN] => 11-5641/O4 [SYS_TAG] => 3 [format_title_cn_issn_pub_year] => ccc8266508e5a5194352a27653fc9729-903225917 [page] => 779-785 [hb_type] => 2 [article_dt] => Article [hb_batch] => title_cn_publication_cn_pub_year_2_3 [publication_en] => HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION [cite_wos] => 3 [check_3Y] => 0 [language] => Chinese [delivery_No] => 587PM [format_title] => f3b759187dd2df0b7f60e9f840899989-1315141207 [cauthor_ad] => [Shao, FL]Shandong Univ, Sch Phys & Microelect, Jinan 250100, Peoples R China. [author_fn] => Shao, FL; Xie, QB [reference] => Abbiendi G, 1999, Phys. Lett.B, V453@@@Abreu P, 2000, EUR PHYS J C, V18, P203, DOI 10.1007/s100520000528@@@Altarelli G, 2001, Physics at LEP1, V1, P198@@@ANDERSSON B, 1983, PHYS REP, V97, P31, DOI 10.1016/0370-1573(83)90080-7@@@ANDERSSON B, 1986, NUCL PHYS B, V264, P29, DOI@@@10.1016/0550-3213(86)90471-2@@@ANGELIS AD, 1993, J PHYS G, V19, P1233@@@DELPHI Collab, 1998, Phys. Lett.B, V416, P247@@@Friberg C, 1997, NUCL PHYS B, V490, P289, DOI@@@10.1016/S0550-3213(97)00064-3@@@MARCHESINI G, 1984, NUCL PHYS B, V238, P1, DOI@@@10.1016/0550-3213(84)90463-2@@@Particle Data Group, 2000, Eur. Phys. J.C, V15@@@Si ZG, 1998, HIGH ENERG PHYS NUC, V22, P307@@@Si Zongguo, 1997, Communications in Theoretical Physics, V28, P85@@@Wang Q, 1996, INT J MOD PHYS A, V11, P5203, DOI@@@10.1142/S0217751X96002388@@@Wang Q, 2000, PHYS REV D, V62, DOI 10.1103/PhysRevD.62.054004@@@WANG Q, 2001, Physical Review D, V64, P012006@@@WEBBER BR, 1984, NUCL PHYS B, V238, P492, DOI@@@10.1016/0550-3213(84)90333-X@@@司宗国, 1999, 高能物理与核物理, V23, P445@@@邵凤兰, 2001, 高能物理与核物理, V25, P710@@@王群, 1995, 高能物理与核物理, V19, P1100 [publication_29] => HIGH ENERG PHYS NUC [end_page] => 785 [abstract_en] => The ratio of final baryon to meson and baryon antibaryon correlation in e(+) e(-) annihilation are considered as sensitive observables to test the hadronizition models, because among the results obtainted in different popular hadronizition models, only those from JETSET event generator can fit experimental data by adjusting extra ad hoe parameters. We replace the color neutral flow connection,which is the results in large N-c limit and is used in JETSET,with the color separate connection,which is allowed by PQCD,and calculate these observables. We compare the obtained results with those from the standard JETSET7.4 code and the available experimental data. We find that the results and the relevant properties are consistent with data. This shows that the consistency of the data with the results from the standard JETSET7.4 code for these properties does not mean that the traditional color neutral flow is the only color connection selected by NPQCD. The 100 % color separate connection is also possible. [author_in] => [] Sch. of Physics and Microelectronics, Shandong University, Ji\' nan 250100, China [publication_type] => J [begin_page] => 779 [author_en] => Shao, FL; Xie, QB [volume] => 26 [get_data] => 2018-08-29 [publisher] => SCIENCE CHINA PRESS [keyword_en] => color separate connection; < B >/< M > ratio; baryon antibaryon; correlation [format_publication_cn] => 1e4ba0a3cae0934c4c5e0c2149a71c3c35052158 [keyword_plu] => QUARK COMBINATION MODEL; HADRON MULTIPLICITIES; PROBABILITY; PARTON; STATES [publication_iso] => High Energy Phys. Nucl. Phys.-Chin. Ed. [format_title_en] => 3fbdb870e989078b9fc45a4c12b54c981789032236 [publisher_city] => BEIJING [hx_id] => 2376,2377,2378,2371 [reference_No] => 18 [cite_awos] => 3 [wos_No] => WOS:000177650700006 [wos_sub] => Physics, Nuclear; Physics, Particles & Fields [research_area] => Physics [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [title_en] => Ratio of baryon to meson and baryon antibaryon correlation in e(+)e(-) annihilation under two kinds of color connections [format_publication_en] => 447a5ff97055faf0b52669582cc267d5690401559 [jl_language] => chinese [jl_publication_cn] => 高能物理与核物理 [jl_article_dt] => 期刊论文 [jl_publication_en] => highenergyphysicsandnuclearphysicschineseedition [jl_country] => 中国,中国 [jl_keyword_en] => correlation,baryonantibaryon,colorseparateconnection,bmratio [jl_keyword_cn] => ,重子介子比,色分离联接,重子反重子关联 [jl_clc] => o572242 [jl_publisher] => sciencechinapress [company_id] => 133,0,5,161,35 [sys_subject_sort] => 0,0,0,0 [college_parent_id] => 133,5,161,35 [company_test] => Array,Array,Array,Array [author_id] => [author_test] => Array ( ) [sys_author_id_arr] => [cscd_No] => CSCD:1020455 [jl_publication_cn_publication_en] => highenergyphysicsandnuclearphysicschineseedition,高能物理与核物理 [jl_keyword_cn_keyword_en] => 重子反重子关联,bmratio,colorseparateconnection,correlation,重子介子比,baryonantibaryon,色分离联接 [sys_author_id] => [format_cscd_No] => 4220b7e50883ac980a8f7206cef6fe2f2026151355 [format_title_en_publication_en_pub_year] => 128754230b9e20be6e3af44c763cb447-965883721 [format_wos_No] => b26a4337732f048cac7ecce909d5fc2f753530741 [format_title_en_issn_pub_year] => 9f49a47af75f7916dff26cddb442ee77160490550 [format_scopus_No] => 69bbf7d54a8ea929054d890429bff82c-138916491 [format_ei_No] => deade705a3fd5946315c4657a4e82254-753265388 [classification_pub] => KNWLD [standard_in] => Sch. of Physics and Microelectronics, Shandong University, Ji\' nan 250100, China [ei_No] => 2004057994021 [datebase] => Scopus [cite_scopus] => 1 [sys_priority_field] => 74 [scopus_No] => 2-s2.0-0346383834 [id] => Eg1GvmUBFjIhTVEbXuAr [tags] => 0 ) [9] => Array ( [batch2] => 1,2,6 [uri] => https://www.scopus.com/inward/record.uri?eid=2-s2.0-0346383927&partnerID=40&md5=f7f337fb26db3bc72326e01d9c5d3c38 [tag] => 0 [abstract_cn] => 由JACEE ,RUNJOB和SOKOL等宇宙线直接测量结果和刚度截断模型 ,对于 1 0 1 4 — 1 0 1 6eV能区的初级宇宙线微分能谱参数进行调整 .利用调整后的能谱与选取QGSJET模型的CORSIKA程序进行EAS模拟 ,同HD ,PD谱进行对比研究 .采用相同的标准对模拟数据与实验数据进行分析 .结果表明 ,调整后的谱和HD谱的模拟结果与甘巴拉山乳胶室实验结果符合较好 ,而PD谱的模拟结果与实验结果偏离较大 . [keyword_cn] => 宇宙线能谱;;广延大气簇射;;乳胶室;;Monte Carlo模拟 [fund_No] => 国家自然科学基金(19875031); 教育部博士点基金 [article_id] => 661188,495778,552640,400032,167359,332438 [clc] => O571.2 [author_jg] => [王永刚] 山东大学物理系, 济南, 山东 250100, 中国.@@@[薛良] 山东大学物理系, 济南, 山东 250100, 中国.@@@[冯存峰] 山东大学物理系, 济南, 山东 250100, 中国.@@@[傅宇] 山东大学物理系, 济南, 山东 250100, 中国.@@@[李婕] 山东大学物理系, 济南, 山东 250100, 中国.@@@[张学尧] 山东大学物理系, 济南, 山东 250100, 中国.@@@[李金玉] 山东大学物理系, 济南, 山东 250100, 中国.@@@[张乃健] 山东大学物理系, 济南, 山东 250100, 中国.@@@[何瑁] 山东大学物理系, 济南, 山东 250100, 中国.@@@[王承瑞] 山东大学物理系, 济南, 山东 250100, 中国.@@@[任敬儒] 中国科学院高能物理研究所, 北京 100039, 中国.@@@[陆穗苓] 中国科学院高能物理研究所, 北京 100039, 中国 [format_title_cn_publication_cn_pub_year] => e169293c3afe38409855e07695885a2c-530393937 [hints] => 5 [issue] => 2 [author_first] => 王永刚 [sys_level_num] => 2_3 [sys_jg_type] => 10 [format_issn_issue_page_pub_year] => f63d7b0e09e2fd4237543a7bb4852796-1413001186 [source_type] => 351 [pub_year] => 2002 [pub_date] => FEB [pages] => 8 [from_id] => 76,75,74,73,80,78 [author_cn] => 王永刚;薛良;冯存峰;傅宇;李婕;张学尧;李金玉;张乃健;何瑁;王承瑞;任敬儒;陆穗苓 [issn] => 0254-3052 [batch] => 3249,3250,3252,3246,3243,3241 [publication_cn] => 高能物理与核物理 [title_cn] => 利用宇宙线直接测量结果对初级宇宙线能谱参数的调整 [CSSN] => 11-5641/O4 [SYS_TAG] => 3 [format_title_cn_issn_pub_year] => 829a2ca14273824fc6b0ab596c5178c62073533581 [page] => 108-115 [hb_type] => 2 [article_dt] => Article [hb_batch] => title_cn_publication_cn_pub_year_2_3 [publication_en] => HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION [cite_wos] => 4 [check_3Y] => 0 [language] => Chinese [delivery_No] => 522YP [format_title] => 0d43d2da374abfff0ce00aedde475e2d-237598614 [cauthor_ad] => [Wang, YG]Shandong Univ, Dept Phys, Jinan 250100, Peoples R China. [author_fn] => Wang, YG; Xue, L; Feng, CF; Fu, Y; Li, J; Zhang, XY; Li, JY; Zhang, NJ; He, M; Wang, CR [reference] => CHERRY ML, 1999, P 26 ICRC, V4, P187@@@GLASMACHER MAK, 1999, P 26 2CRC SALT LAK C, V3, P199@@@HORANDEL JR, 1999, P 26 ICRC, V2, P237@@@ICHIMURA M, 1993, PHYS REV D, V48, P1949, DOI 10.1103/PhysRevD.48.1949@@@Ivanenko I. P., 1993, P 23 INT COSM RAY C, V2, P17@@@Jacee Collab, 1995,@@@http://marge.phys.washington.edu/jacee/Papers/icrc95/og6.1.14.html, V2,@@@P707@@@Jaudakiv A B, 1984, Sov. J. Nucl. Phys., V39, P979@@@KAIDALOV AB, 1986, SOV J NUCL PHYS+, V43, P822@@@Kalymkov N N, 1989, Sov. J. Nucl. Phys., V50, P315@@@Nilsen B S, 1997, Proc. Texas Symp@@@Petrera S, 1996, NUOVO CIMENTO C, V19, P737, DOI 10.1007/BF02506665@@@REN JR, 1988, PHYS REV D, V38, P1404, DOI 10.1103/PhysRevD.38.1404@@@@@@Runjob Collab, 1999, Proc 26th ICRC, V3, P167@@@WATSON A, 1997, P 25 INT COSM RAY C, P257@@@WEIBELSCOTH B, 1998, ASTRON ASTROPHYS, V330, P389@@@Zhang CS, 1996, NUCL INSTRUM METH A, V376, P263, DOI@@@10.1016/0168-9002(96)00242-2@@@罗光宣, 1995, 高能物理与核物理, V19, P769@@@经才骝, 1986, 高能物理与核物理, V10, P636 [publication_29] => HIGH ENERG PHYS NUC [end_page] => 115 [abstract_en] => With the data of recent measurements of the JACEE, RUNJOB and SOKOL experiments, and under the assumption of rigidity cut-off model, a new primary cosimc-ray energy spectrum and chemical composition in 10(14)-10(16) eV energy region are derived. EAS simulations using CORSIKA, combining QGSJET model of high energy hadronic interaction, are performed with this spectrum and another two spectra, HD and PD spectrum, respectively. It is shown that the new spectrum and HD can give very good results, compared with the experimental results obtained with thick Pb emulsion chambers (28 c. u.) at Mt. Kanbala (5500m a. s. l., Tibet, China), while PD spectrum can not. [author_in] => [] Dept. of Physics Shandong University, Ji\'nan 250100, China@@@[] Institute of High Energy Physics, Chinese Academy of Sciences, Beijing 100039, China [publication_type] => J [begin_page] => 108 [author_en] => Wang, YG; Xue, L; Feng, CF; Fu, Y; Li, J; Zhang, XY; Li, JY; Zhang, NJ; He, M; Wang, CR [volume] => 26 [get_data] => 2018-08-29 [publisher] => SCIENCE CHINA PRESS [keyword_en] => cosmic-ray energy spectrum; extensive air shower; emulsion chamber;; Monte Carlo simulation [format_publication_cn] => 1e4ba0a3cae0934c4c5e0c2149a71c3c35052158 [keyword_plu] => GLUON STRING MODEL; FAMILIES; EVENTS; KNEE [publication_iso] => High Energy Phys. Nucl. Phys.-Chin. Ed. [format_title_en] => 399c9be84e36514c57cd30c5c1570291-1536992028 [publisher_city] => BEIJING [hx_id] => 2376,2377,2378,2371 [reference_No] => 20 [email] => wangyg@hepg.sdu.edu.cn [cite_awos] => 5 [wos_No] => WOS:000173924800004 [wos_sub] => Physics, Nuclear; Physics, Particles & Fields [research_area] => Physics [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [title_en] => Adjustment of parameters of primary cosmic ray energy spectrum with recent direct measurments [format_publication_en] => 447a5ff97055faf0b52669582cc267d5690401559 [jl_language] => chinese [jl_publication_cn] => 高能物理与核物理 [jl_article_dt] => 期刊论文 [jl_publication_en] => highenergyphysicsandnuclearphysicschineseedition [jl_country] => 中国,中国 [jl_keyword_en] => cosmicrayenergyspectrum,extensiveairshower,emulsionchamber,,montecarlosimulation [jl_keyword_cn] => ,montecarlo模拟,宇宙线能谱,乳胶室,广延大气簇射 [jl_clc] => o5712 [jl_publisher] => sciencechinapress [author_id] => 25735,21740,21744,25408,21749,21748,25720,21727,20699,25689,24876,25692,25719 [author_test] => Array ( [0] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 5 [name] => 李静 [irtag] => 7 [t_index] => 0 [person_id] => 21744 ) [1] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 6 [name] => 张晓燕 [irtag] => 7 [t_index] => 0 [person_id] => 25719 ) [2] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 6 [name] => 张锡宇 [irtag] => 7 [t_index] => 0 [person_id] => 25689 ) [3] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 6 [name] => 张熙颖 [irtag] => 7 [t_index] => 0 [person_id] => 25692 ) [4] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 5 [name] => 李军 [irtag] => 7 [t_index] => 0 [person_id] => 21749 ) [5] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 5 [name] => 李军 [irtag] => 7 [t_index] => 0 [person_id] => 21748 ) [6] => Array ( [sure] => 1 [irmagnum] => 0 [u_index] => 6 [name] => 张学尧 [irtag] => 0 [t_index] => 0 [person_id] => 25735 ) [7] => Array ( [sure] => 1 [irmagnum] => 0 [u_index] => 2 [name] => 薛良 [irtag] => 0 [t_index] => 0 [person_id] => 24876 ) [8] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 5 [name] => 李洁 [irtag] => 7 [t_index] => 0 [person_id] => 21727 ) [9] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 5 [name] => 李静 [irtag] => 7 [t_index] => 0 [person_id] => 21740 ) [10] => Array ( [sure] => 1 [irmagnum] => 0 [u_index] => 3 [name] => 冯存峰 [irtag] => 0 [t_index] => 0 [person_id] => 20699 ) [11] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 6 [name] => 张晓阳 [irtag] => 7 [t_index] => 0 [person_id] => 25720 ) [12] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 6 [name] => 张行愚 [sys_author_id] => Array ( [0] => 25735 [1] => 24876 [2] => 20699 ) [irtag] => 7 [t_index] => 0 [person_id] => 25408 ) ) [company_id] => 133,0,5 [sys_subject_sort] => 0,0 [college_parent_id] => 133,5 [company_test] => Array,Array [sys_author_id_arr] => 20699冯存峰,24876薛良,25735张学尧 [cscd_No] => CSCD:990704 [jl_publication_cn_publication_en] => highenergyphysicsandnuclearphysicschineseedition,高能物理与核物理 [jl_keyword_cn_keyword_en] => cosmicrayenergyspectrum,emulsionchamber,montecarlo模拟,montecarlosimulation,乳胶室,宇宙线能谱,extensiveairshower,广延大气簇射 [sys_author_id] => 20699,24876,25735 [format_cscd_No] => fe22b6ce261105ab2d45d0809255f296-1856986405 [format_title_en_publication_en_pub_year] => 8aa9a48fa06ba2a7eff175b475b1694c-439715652 [format_wos_No] => 208f29c3dd900a1d7f5859c29f926e9a459892269 [format_title_en_issn_pub_year] => 9c33e4eb2c8baec933b720790bd24f55503185166 [format_scopus_No] => acb07fa851419da3c3a2d0462b8bd7741986545593 [format_ei_No] => f8157200aad7088a1178790fd30db8b4-1994251257 [classification_pub] => KNWLD [standard_in] => Dept. of Physics Shandong University, Ji\'nan 250100, China; Institute of High Energy Physics, Chinese Academy of Sciences, Beijing 100039, China [ei_No] => 2004057993946 [datebase] => Scopus [sys_priority_field] => 74 [scopus_No] => 2-s2.0-0346383927 [id] => 7w5JvmUBFjIhTVEb0toH [tags] => 0 ) [10] => Array ( [batch2] => 1,2,6 [batch] => 3250,3243,3241,3252,3246 [tag] => 0 [abstract_cn] => 用JETSET事例产生器对e+ e- →q q +ng→hadrons反应中 ,末态部分子( q q +ng)以色分离的联接方式进行强子化时 ,各种强子产额及π + ,K± ,p/ p的动量谱进行了计算 ;与传统的色中性流联接方式强子化结果进行比较 .结果表明 :由T权重确定的色分离单态和色中性流这两种完全不同的色联接方式强子化得到的强子产额及π+ ,K± ,p/ p的动量谱 ,与实验符合的程度相同 ,有些更好 . [keyword_cn] => 部分子组态;色分离单态;强子化;色联接 [article_id] => 332800,635520,401148,156790,496367 [clc] => O571 [author_jg] => [邵凤兰,谢去病]山东大学物理系!济南250100,山东大学物理系!济南250100 [format_title_cn_publication_cn_pub_year] => 131fd3558fb20c2cd38d975a939ad109-1509508026 [hints] => 7 [issue] => 8 [sys_level_num] => 2_3 [sys_jg_type] => 0 [format_issn_issue_page_pub_year] => 0fafe1e2d92ac40ac0a1fe1f220608b1-1077805398 [source_type] => 351 [pub_year] => 2001 [pub_date] => AUG [pages] => 10 [from_id] => 76,80,74,73,78 [author_cn] => 邵凤兰,谢去病 [issn] => 0254-3052 [uri] => http://kns.cnki.net/kns/detail/detail.aspx?FileName=KNWL200108001&DbName=CJFQ2001 [publication_cn] => 高能物理与核物理 [title_cn] => 部分子末态的色分离联接对e~+e~-反应中强子产额及其动量谱的影响 [CSSN] => 11-5641/O4 [SYS_TAG] => 3 [format_title_cn_issn_pub_year] => 1a588d909b131d93203ec4f85f919ed31073892273 [page] => 710-719 [hb_type] => 2 [article_dt] => Article [jl_publication_cn] => 高能物理与核物理 [jl_article_dt] => 期刊论文 [jl_keyword_cn] => 色分离单态,色联接,部分子组态,强子化 [jl_clc] => o571 [author_in] => [] Physics Department, Shandong University, Jinan 250100, China [company_id] => 133,0,5 [sys_subject_sort] => 0,0 [college_parent_id] => 133,5 [company_test] => Array,Array [author_id] => [author_test] => Array ( ) [sys_author_id_arr] => [jl_publication_cn_publication_en] => 高能物理与核物理 [jl_keyword_cn_keyword_en] => 色分离单态,色联接,部分子组态,强子化 [sys_author_id] => [hb_batch] => grant_no [cite_wos] => 6 [publication_en] => HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION [check_3Y] => 0 [language] => Chinese [delivery_No] => 465FC [cauthor_ad] => [Shao, FL]Shandong Univ, Dept Phys, Jinan 250100, Peoples R China. [format_title] => f8092230602d0816f82c14a812c09cac-299168992 [author_fn] => Shao, FL; Xie, QB [cite_wanfang] => 4 [ei_No] => 2004057986929 [format_title_en_issn_pub_year] => 7e40a62c9321505fece86e1b1ce2460d1955652305 [datebase] => Scopus [format_scopus_No] => 506925c6b4705ca0804ada2c2faa62bb1249200299 [publication_29] => HIGH ENERG PHYS NUC [end_page] => 719 [abstract_en] => We calculate the hadron multiplicities and the momentum spectra of pi (+/-), K+/-, p/(p) over bar in e(+) e(-)-->q (q) over bar + ng --> hadrons for the case where the color separate singlet connections occur among the final partons q (q) over bar + ng with the help of JETSET event generator. We compare the results with those obtainted from the traditional color flow models and the available experimental data. The comparisons show that the momentum spectra obtained in the case of C-weight have a. significant deviation from the data., whereas those obtained in the case of T-weight are consistant with the data. The results from the case of T-weight are also consistant with those from the color flow model in most cases, and for proton, are even better than the later as implemented in default JETSET compared with the data. [publication_type] => J [begin_page] => 710 [author_en] => Shao, FL; Xie, QB [volume] => 25 [publisher] => SCIENCE PRESS [get_data] => 2018-08-29 [keyword_en] => parton configuration; color separate singlet; hadronization; color; connection [keyword_plu] => DECAYS [format_publication_cn] => 1e4ba0a3cae0934c4c5e0c2149a71c3c35052158 [publication_iso] => High Energy Phys. Nucl. Phys.-Chin. Ed. [format_title_en_publication_en_pub_year] => fd3c8876c06701807e7ae01393ca33a81621859280 [cite_scopus] => 2 [format_title_en] => 4b38fe4b93398185d2b6806d54b8e1a3-120668505 [publisher_city] => BEIJING [cauthor_order] => 1 [hx_id] => 2376,2378,2371 [format_ei_No] => 587d763d50eeba18a47aca22584de8e11165576082 [reference_No] => 13 [cite_awos] => 6 [wos_No] => WOS:000170578100002 [sys_priority_field] => 73 [classification_pub] => KNWLD [format_wos_No] => b6ebe958ddf334dfc5c33424d1f2fc3d1464254167 [wos_sub] => Physics, Nuclear; Physics, Particles & Fields [research_area] => Physics [cauthor_back] => Shao, FL [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [standard_in] => Physics Department, Shandong University, Jinan 250100, China [scopus_No] => 2-s2.0-0345823813 [title_en] => Hadron multiplicities and its momentum spectra from color separate connection among final partons in e(+) e(-) annihilation events [format_publication_en] => 447a5ff97055faf0b52669582cc267d5690401559 [id] => vg1EvmUBFjIhTVEb_I21 [tags] => 0 ) [11] => Array ( [batch2] => 1,2 [batch] => 3250,3241,3254,3252 [tag] => 0 [abstract_cn] => 利用加速器高能物理实验中通用的探测器模拟软件GEANT3对于铁乳胶室进行了室内模拟,研究了级联簇射转换曲线及半宽度的性质,讨论了利用半宽度分布将簇射起始深度  t<6c.u.的簇射事例中的强子与 γ线区分开来的可能性.给出了在铁乳胶室实验中行之有效的区分γ/强子的联合判选标准. [keyword_cn] => 铁乳胶室;级联簇射转换曲线;半宽度;γ/强子分辨 [article_id] => 123358,332884,167170,526847 [clc] => P145.6 [author_jg] => [季晓斌,傅宇,薛良,张学尧,李婕,李金玉,张乃健,何瑁,任敬儒,陆穗苓]山东大学物理系,山东大学物理系,山东大学物理系,山东大学物理系,山东大学物理系,山东大学物理系,山东大学物理系,山东大学物理系,中国科学院高能物理研究所,中国科学院高能物理研究所 济南250100,济南250100,济南250100,济南250100,济南250100,济南250100,济南250 [format_title_cn_publication_cn_pub_year] => b06b78ecbe77be72e14074ef87bf83921629008743 [hints] => 4 [issue] => 10 [sys_level_num] => 2_3 [sys_jg_type] => 10,5 [format_issn_issue_page_pub_year] => cefdec98b3c5fdf794ba1228e0db3cf4308599482 [source_type] => 351 [pub_year] => 2001 [pub_date] => OCT [pages] => 5 [from_id] => 80,78,73,85 [author_cn] => 季晓斌,傅宇,薛良,张学尧,李婕,李金玉,张乃健,何瑁,任敬儒,陆穗苓 [issn] => 0254-3052 [uri] => http://kns.cnki.net/kns/detail/detail.aspx?FileName=KNWL200110012&DbName=CJFQ2001 [publication_cn] => 高能物理与核物理 [title_cn] => 铁乳胶室中的簇射转换曲线的特征 与γ/强子分辨 [CSSN] => 11-5641/O4 [SYS_TAG] => 3 [format_title_cn_issn_pub_year] => 8106c008bb16631a830a716f886ed0f8982293123 [page] => 1012-1016 [hb_type] => 2 [article_dt] => Article [hb_batch] => title_cn_publication_cn_pub_year_2_3 [format_title_en] => aafb538ffec596278c3728790e9a1033-1000589043 [format_title] => 3a00cb6814d2059f2aaf19211fadb98c-1794876876 [hx_id] => 2371 [format_publication_cn] => 1e4ba0a3cae0934c4c5e0c2149a71c3c35052158 [format_publication_en] => 447a5ff97055faf0b52669582cc267d5690401559 [jl_publication_cn] => 高能物理与核物理 [jl_article_dt] => 期刊论文 [jl_keyword_cn] => γ强子分辨,级联簇射转换曲线,铁乳胶室,半宽度 [jl_clc] => p1456 [author_in] => [Ji, XB; Fu, Y; Xue, L; Zhang, XY; Li, J; Li, JY; Zhang, NJ; He, M; Ren, JR; Lu, SL]Shandong Univ, Dept Phys, Jinan 250100, Peoples R China.@@@[Ji, XB; Fu, Y; Xue, L; Zhang, XY; Li, J; Li, JY; Zhang, NJ; He, M; Ren, JR; Lu, SL] CAS, Inst High Energy Phys, Beijing 100039, Peoples R China. [company_id] => 133,0,5 [sys_subject_sort] => 0,0 [college_parent_id] => 133,5 [company_test] => Array,Array [author_id] => 25735,24876 [author_test] => Array ( [0] => Array ( [sure] => 1 [irmagnum] => 0 [u_index] => 4 [name] => 张学尧 [irtag] => 0 [t_index] => 0 [person_id] => 25735 ) [1] => Array ( [sure] => 1 [irmagnum] => 0 [u_index] => 3 [name] => 薛良 [sys_author_id] => Array ( [0] => 25735 [1] => 24876 ) [irtag] => 0 [t_index] => 0 [person_id] => 24876 ) ) [sys_author_id_arr] => 25735张学尧,24876薛良 [jl_publication_cn_publication_en] => 高能物理与核物理 [jl_keyword_cn_keyword_en] => 铁乳胶室,半宽度,γ强子分辨,级联簇射转换曲线 [sys_author_id] => 25735,24876 [cite_wos] => 0 [publication_en] => HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION [check_3Y] => 0 [language] => Chinese [delivery_No] => 485DJ [cauthor_ad] => [Ji, XB]Shandong Univ, Dept Phys, Jinan 250100, Peoples R China. [author_fn] => Ji, XB; Fu, Y; Xue, L; Zhang, XY; Li, J; Li, JY; Zhang, NJ; He, M; Ren, JR; Lu, SL [format_title_en_issn_pub_year] => 1c3ab486fee321a276f187adeb12aff4-1244596826 [publication_29] => HIGH ENERG PHYS NUC [end_page] => 1016 [abstract_en] => The GEANT3 code, a general software for detector simulations widely used in the experiments of particle physics, is introduced to the Monte Carlo simulation of iron emulsion chambers. Some Characteristics of transition curves of cascade shower and their FWHM (Full Width of Half Maximum) are studied. The probability of discriminating hadrons from gamma rays using the FWHM distributions for the shower events with starting depth Deltat< 6c. u. is discussed and an efficient joint criterion of discriminating hadrons from -rays in iron emulsion chambers is obtained. [publication_type] => J [begin_page] => 1012 [author_en] => Ji, XB; Fu, Y; Xue, L; Zhang, XY; Li, J; Li, JY; Zhang, NJ; He, M; Ren, JR; Lu, SL [volume] => 25 [get_data] => 2018-08-29 [publisher] => SCIENCE PRESS [keyword_en] => iron emulsion chambers; transition curves of cascade showers; FWHM (full; width of half maximum); discrimination of gamma-rays and hadrons [publication_iso] => High Energy Phys. Nucl. Phys.-Chin. Ed. [format_title_en_publication_en_pub_year] => a75f2e2822e0835e069b9bf4265b6343-136265983 [publisher_city] => BEIJING [cauthor_order] => 1 [reference_No] => 4 [cite_awos] => 0 [wos_No] => WOS:000171738000013 [format_wos_No] => 77282789a1e0f248f031275409fedac3-1216863769 [wos_sub] => Physics, Nuclear; Physics, Particles & Fields [research_area] => Physics [cauthor_back] => Ji, XB [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [title_en] => Characteristics of the transition curves of showers and discrimination of gamma-rays and hadrons in iron emulsion chambers [id] => Nw9LvmUBFjIhTVEbD0GR [tags] => 0 ) [12] => Array ( [issn] => 0254-3052 [delivery_No] => 393AJ [batch2] => 1,2,6 [hb_batch] => 3241 [tag] => 0 [author_en] => Wang, YG; Liu, XM; Zhou, JJ [abstract_en] => A model,which treats three initial partons as two color singlets and then both of them fragment independently into hadrons,is employed to study the angular dependence of charged multiplicity distribution in e(+) e(-) annihilation into three-jet events at LEP energy region. The calculated results show a distinguished dependence of charged multiplicity to topology structure of events,and also agree well with experiment data from ALEPH collaboration. [publication_type] => J [keyword_plu] => CHARGED MULTIPLICITY; E+E ANNIHILATION; QUARK [author_in] => [Wang, Y.-G] Department of Physics, Shandong University, Ji\'nan 250100, China@@@[ Liu, X.-M] Department of Physics, Shandong University, Ji\'nan 250100, China@@@[ Zhou, J.-J] Department of Physics, Shandong University, Ji\'nan 250100, China [publisher_city] => BEIJING [cauthor_back] => Wang, YG [get_data] => 2018-08-29 [format_title_en_publication_en_pub_year] => 2eea70d9f232f4308d2898faac80974c-1593358809 [begin_page] => 6 [cite_wos] => 11 [check_3Y] => 0 [cite_awos] => 12 [from_id] => 76,80,78,73,85 [cauthor_ad] => [Wang, YG]Shandong Univ, Dept Phys, Jinan 250100, Peoples R China. [school_id] => 117 [cauthor_order] => 1 [research_area] => Physics [sys_level_num] => 1_7 [publisher] => SCIENCE PRESS [sys_jg_type] => 9,0,5 [format_issn_issue_page_pub_year] => 2c40b7973f7d5227459f4d7cf917b6b31224077600 [title_en] => Angular asymmetry of multiplicity in high energy e(+) e(-) annihilation to three jet events [publication_29] => HIGH ENERG PHYS NUC [author_fn] => Wang, YG; Liu, XM; Zhou, JJ [pub_year] => 2001 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [check_180] => 0 [keyword_en] => parton fragmentation; multiplicity distribution; topology structure [end_page] => 10 [pub_date] => JAN [pages] => 5 [format_wos_No] => f77a00c285edda66280365dbf7b90214-2075878736 [hints] => 4 [volume] => 25 [language] => Chinese [source_type] => 351 [issue] => 1 [reference_No] => 13 [batch] => 3243,3250,3241,3254,3252 [publication_en] => HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION [hx_id] => 2378,2371 [sys_update_time] => 2018-09-05 15:29:29 [format_title_en_issn_pub_year] => 2a242ebf67cb38fd87bc8c3d29b06233688056596 [publication_iso] => High Energy Phys. Nucl. Phys.-Chin. Ed. [article_id] => 172725,333434,37083,526854,496082 [wos_sub] => Physics, Nuclear; Physics, Particles & Fields [SYS_TAG] => 3 [wos_No] => WOS:000166446700002 [page] => 6-10 [hb_type] => 2 [article_dt] => Article [jl_language] => chinese [jl_article_dt] => 期刊论文 [jl_publication_en] => highenergyphysicsandnuclearphysicschineseedition [jl_country] => 中国 [jl_keyword_en] => topologystructure,multiplicitydistribution,partonfragmentation [jl_publisher] => sciencepress [author_jg] => [王永刚,刘希明,周建军]山东大学物理系!济南250100,山东大学物理系!济南250100,山东大学物理系!济南250100 [keyword_cn] => 部分子碎裂;多重数分布;拓扑结构 [format_title] => 57b70cf4fd4af6d3d443c7966bcba15f-186003356 [clc] => TL817 [title_cn] => 高能e~+e~- 湮没三喷注事例的角度不对称性 [format_publication_cn] => 1e4ba0a3cae0934c4c5e0c2149a71c3c35052158 [publication_cn] => 高能物理与核物理 [format_title_en] => 13f243e1168f453e46da985b79f51d1b-1225529522 [CSSN] => 11-5641/O4 [abstract_cn] => 利用部分子色相互作用形成色单态独立碎裂成末态强子的物理图像,系 统计算了 LEP能区 e+ e-、q0q0 g→3jets事例带电粒子多重数,表明与事例拓扑 结构有强烈的依赖性,计算结果与实验基本一致. [sys_priority_field] => 76 [author_cn] => 王永刚,刘希明,周建军 [format_publication_en] => 447a5ff97055faf0b52669582cc267d5690401559 [jl_publication_cn] => 高能物理与核物理 [jl_keyword_cn] => 部分子碎裂,拓扑结构,多重数分布 [jl_clc] => o57 [company_id] => 133,0,5 [author_id] => 22472,22492,22461,22482 [author_test] => Array ( [0] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 2 [name] => 刘雪梅 [irtag] => 7 [t_index] => 0 [person_id] => 22492 ) [1] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 2 [name] => 刘心明 [irtag] => 7 [t_index] => 0 [person_id] => 22472 ) [2] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 2 [name] => 刘秀美 [irtag] => 7 [t_index] => 0 [person_id] => 22482 ) [3] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 2 [name] => 刘相梅 [irtag] => 7 [t_index] => 0 [person_id] => 22461 ) ) [sys_author_id_arr] => [jl_publication_cn_publication_en] => highenergyphysicsandnuclearphysicschineseedition,高能物理与核物理 [jl_keyword_cn_keyword_en] => 拓扑结构,topologystructure,多重数分布,multiplicitydistribution,partonfragmentation,部分子碎裂 [datebase] => Scopus [format_scopus_No] => 04fe1a5a9ac5f541ad263702e9c7e579-356401400 [classification_pub] => KNWLD [uri] => http://kns.cnki.net/kns/detail/detail.aspx?FileName=KNWL200101001&DbName=CJFQ2001 [standard_in] => Department of Physics, Shandong University, Ji\'nan 250100, China [scopus_No] => 2-s2.0-0038976470 [format_title_cn_publication_cn_pub_year] => 8bb8faf0f967d0e67feb60b61d864e64-1183395105 [format_title_cn_issn_pub_year] => a8188d7d255c38ab07ae559e2b0648ca448642738 [jl_author_test] => uirtstag0,upersonid22492,upersonid22482,uuindex2,upersonid22461,unameuu5218u96eau6885,usureu0,upersonid22472,utindex0,uirtag7,uirtypical1,uirinspecttag0,unameuu5218u76f8u6885,uirauthortype0,unameuu5218u79c0u7f8e,unameuu5218u5fc3u660e [sys_author_jg_last_arr] => 山东大学物理系 [sys_author_in_last_arr] => china [sys_author_id] => [sys_subject_sort] => 0,0 [college_parent_id] => 133,5 [company_test] => Array,Array [id] => iQifvWUBFjIhTVEbTN5t [tags] => 0 ) [13] => Array ( [reference_No] => 18 [batch2] => 1,2,6 [hb_batch] => 3246 [ei_No] => 2004057986908 [tag] => 0 [author_en] => Liu, CX; Liang, ZT [abstract_en] => We show that measuring the polarization of hyperon in the lepton induced reactions is an ideal way to study the spin transfer in high-energy hadronization processes. After a brief summary of the polarization of the initial quark or antiquark in these reactions,we give the calculation method of the polarization of hyperon. As an example,we calculate polarizations of different hyperons in e(+) e(-) annihilation at LEP energys and compare these results with the available data. The results show that measurements of such polarizations should provide important information about the question of which picture of spin structure of baryon is more suitable in describing the spin effects in the high-energy fragmentation processes. [author_in] => [Liu, C.-X] Department of Physics, Shandong University, Ji\'nan 250100, China@@@[ Liang, Z.-T] Department of Physics, Shandong University, Ji\'nan 250100, China [pub_date] => JUN [format_title_en_publication_en_pub_year] => 96373a0703a25937db14e22ef23ee83c1766448462 [from_id] => 76,74,73,80,78,85 [issue] => 6 [hx_id] => 2376,2378,2371 [classification_pub] => KNWLD [datebase] => Scopus [sys_level_num] => 1_4 [sys_jg_type] => 0,5 [format_issn_issue_page_pub_year] => 571026ac7d04f9341033cab958eba122658686502 [title_en] => Spin transfer in high-energy hadronization processes and polarization of hyperon in the lepton-induced reactions [volume] => 25 [author_fn] => Liu, CX; Liang, ZT [pub_year] => 2001 [article_id] => 156787,66443,496464,400987,332897,552633 [begin_page] => 476 [hints] => 8 [publisher] => SCIENCE PRESS [language] => Chinese [source_type] => 351 [issn] => 0254-3052 [batch] => 3250,3241,3254,3246,3243,3252 [publication_en] => HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION [school_id] => 117 [sys_update_time] => 2018-09-05 15:28:36 [format_title_en_issn_pub_year] => 986883cd20a0522dbb16e2992e7ee6df-1427755581 [format_ei_No] => 0c1cb8c8a5413649ba90878c810ba4bf4724102 [SYS_TAG] => 3 [end_page] => 486 [page] => 476-486 [hb_type] => 2 [article_dt] => Article [cite_wos] => 0 [check_3Y] => 0 [delivery_No] => 442WH [format_title] => 07526d3163ba42cfa5e7f10e436f8fe8-1084197449 [cauthor_ad] => [Liu, CX]Shandong Univ, Dept Phys, Jinan 250100, Peoples R China. [pages] => 11 [publication_29] => HIGH ENERG PHYS NUC [publication_type] => J [get_data] => 2018-08-29 [keyword_en] => lepton-induced reactions; spin transfer; spin structure of baryon;; hyperon polarization [format_publication_cn] => 1e4ba0a3cae0934c4c5e0c2149a71c3c35052158 [keyword_plu] => LAMBDA-POLARIZATION; Z-DECAYS; FRAGMENTATION; NUCLEON; PHYSICS [publication_iso] => High Energy Phys. Nucl. Phys.-Chin. Ed. [format_title_en] => 2b317c17b4726a74c9322fa49d4c8cb2757995754 [publisher_city] => BEIJING [cite_awos] => 0 [wos_No] => WOS:000169307600002 [sys_priority_field] => 76 [wos_sub] => Physics, Nuclear; Physics, Particles & Fields [research_area] => Physics [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [format_publication_en] => 447a5ff97055faf0b52669582cc267d5690401559 [jl_language] => chinese [jl_article_dt] => 期刊论文 [jl_publication_en] => highenergyphysicsandnuclearphysicschineseedition [jl_country] => 中国 [jl_keyword_en] => leptoninducedreactions,,spinstructureofbaryon,spintransfer,hyperonpolarization [jl_publisher] => sciencepress [author_first] => 刘春秀 [author_jg] => [刘春秀]山东大学物理系!济南250100@@@[梁作堂]山东大学物理系!济南250100 [keyword_cn] => 轻子诱发反应;;自旋转移;;重子自旋结构;;超子极化 [clc] => O571 [title_cn] => 高能强子化过程的自旋转移和轻子诱发反应中超子的极化 [publication_cn] => 高能物理与核物理 [CSSN] => 11-5641/O4 [abstract_cn] => 指出在轻子诱发反应中测量产生超子的极化是研究高能强子化过程自旋转移的理想途径 .在总结这些反应产生的初始夸克或反夸克极化的基础上 ,给出了超子极化的计算方法 .作为应用举例 ,给出了e+e- 湮没过程中LEP能量下各种超子的极化及与已有实验的比较 .这些结果表明 ,测量各类超子的极化可作为检验不同的重子自旋结构图像 ,何者适用于高能碎裂过程的重要手段 [author_cn] => 刘春秀;梁作堂 [uri] => https://www.scopus.com/inward/record.uri?eid=2-s2.0-0345823826&partnerID=40&md5=b66e9628d0934593f5d8a2fcaacb7c58 [jl_publication_cn] => 高能物理与核物理 [jl_keyword_cn] => ,轻子诱发反应,超子极化,重子自旋结构,自旋转移 [jl_clc] => o571 [author_id] => 22111 [author_test] => Array ( [0] => Array ( [sure] => 1 [irmagnum] => 0 [u_index] => 2 [name] => 梁作堂 [sys_author_id] => Array ( [0] => 22111 ) [irtag] => 0 [t_index] => 0 [person_id] => 22111 ) ) [company_id] => 133,0,5 [sys_subject_sort] => 0,0 [college_parent_id] => 133,5 [company_test] => Array,Array [sys_author_id_arr] => 22111梁作堂 [jl_publication_cn_publication_en] => highenergyphysicsandnuclearphysicschineseedition,高能物理与核物理 [jl_keyword_cn_keyword_en] => 重子自旋结构,超子极化,自旋转移,leptoninducedreactions,spinstructureofbaryon,轻子诱发反应,hyperonpolarization,spintransfer [format_scopus_No] => f2886713085217e8cd34092799735bd5288550887 [format_wos_No] => 683e26e8d80fad8e1123745298c13123-129009121 [standard_in] => Department of Physics, Shandong University, Ji\'nan 250100, China [scopus_No] => 2-s2.0-0345823826 [format_title_cn_publication_cn_pub_year] => 74c0c8daafeb04a94dba6aa53a8cb3a82019444252 [format_title_cn_issn_pub_year] => f30cb6fb626ec9136363d9c614828901-144510795 [jl_author_test] => uirtypical3,uirtstag0,unameuu6881u4f5cu5802,uuindex2,usureu0,utindex0,uirinspecttag0,uirauthortype0,uirtag0,upersonid22111 [sys_author_jg_last_arr] => 山东大学物理系济南250100,山东大学物理系济南250100 [jl_company_test] => uircu0,uparentidu5,uorgidu5,unameuu7269u7406u5b66u9662,ulevelu1 [sys_author_in_last_arr] => china [sys_author_id] => [id] => ngd5vWUBFjIhTVEbiEgl [tags] => 0 ) [14] => Array ( [reference_No] => 20 [batch2] => 1,2,6 [hb_batch] => 3246 [ei_No] => 2004057986893 [tag] => 0 [author_en] => Liu, XM; Zhang, XR; Wang, HL [abstract_en] => Recently experiments found that multiplicities of final state particles in high energy reactions and their masses satisfy a simple universal experienced formula. In this paper the multiplicities of directly producted mesons and baryons in e(+)e(-) annihilation and pp((p) over bar) reaction are calculated and are in complete agreement with the parameter in the experienced formula. And we can give a reasonable interpretation of parameters that are relevant to energy. The reasons of the mass universal relation are discussed. [author_in] => [Liu, X.-M] Department of Physics, Shandong University, Ji\' nan 250100, China@@@[ Zhang, X.-R] Department of Physics, Shandong University, Ji\' nan 250100, China@@@[ Wang, H.-L] Department of Physics, Shandong University, Ji\' nan 250100, China [pub_date] => MAY [format_title_en_publication_en_pub_year] => 85c6926c004155c53405ee493a5d2517723264618 [from_id] => 76,74,73,80,78,85 [issue] => 5 [hx_id] => 2376,2378,2371 [classification_pub] => KNWLD [datebase] => Scopus [sys_level_num] => 1_4 [sys_jg_type] => 11,5 [format_issn_issue_page_pub_year] => 8f740de1cc419cd2ee92ad3f1a90ff8e-1594808434 [title_en] => Universal mass dependence of final hadron yields in high energy reactions [volume] => 25 [author_fn] => Liu, XM; Zhang, XR; Wang, HL [pub_year] => 2001 [article_id] => 635521,496396,172723,37082,399740,333024 [begin_page] => 377 [hints] => 12 [publisher] => SCIENCE PRESS [language] => Chinese [source_type] => 351 [issn] => 0254-3052 [batch] => 3250,3241,3254,3246,3243,3252 [publication_en] => HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION [school_id] => 117 [sys_update_time] => 2018-09-05 15:28:36 [format_title_en_issn_pub_year] => 06bbff7044a788db9d6c8a2d4a7e05871380108355 [format_ei_No] => b8aba15808778dd09dd78cb375af0b2f1201282416 [SYS_TAG] => 3 [end_page] => 382 [page] => 377-382 [hb_type] => 2 [article_dt] => Article [cite_wos] => 1 [check_3Y] => 0 [delivery_No] => 439RF [format_title] => 34e955574032b48ef782739950935a76-1963299086 [cauthor_ad] => [Liu, XM]Shandong Univ, Dept Phys, Jinan 250100, Peoples R China. [pages] => 6 [publication_29] => HIGH ENERG PHYS NUC [publication_type] => J [get_data] => 2018-08-29 [keyword_en] => universal mass dependence; directly production rates of mesons and; baryons; high energy reaction [format_publication_cn] => 1e4ba0a3cae0934c4c5e0c2149a71c3c35052158 [keyword_plu] => PARTICLE-PRODUCTION; QCD CASCADES; MULTIPLICITY; ANNIHILATIONS; QUARKS; MESON [publication_iso] => High Energy Phys. Nucl. Phys.-Chin. Ed. [format_title_en] => e20518c315119b9dcb5570eaa0f50bcb1505712291 [publisher_city] => BEIJING [cite_awos] => 1 [wos_No] => WOS:000169130300002 [sys_priority_field] => 76 [wos_sub] => Physics, Nuclear; Physics, Particles & Fields [research_area] => Physics [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [format_publication_en] => 447a5ff97055faf0b52669582cc267d5690401559 [jl_language] => chinese [jl_article_dt] => 期刊论文 [jl_publication_en] => highenergyphysicsandnuclearphysicschineseedition [jl_country] => 中国 [jl_keyword_en] => highenergyreaction,baryons,directlyproductionratesofmesonsand,universalmassdependence [jl_publisher] => sciencepress [author_first] => 刘希明 [author_jg] => [刘希明]山东大学物理系!济南250100@@@[张学尧]山东大学物理系!济南250100@@@[王海龙]山东大学物理系!济南250100 [keyword_cn] => 普适质量关系;;直生介子重子数;;高能反应 [clc] => O572.11 [title_cn] => 高能反应末态强子产率的普适质量关系 [publication_cn] => 高能物理与核物理 [CSSN] => 11-5641/O4 [abstract_cn] => 最近实验上发现高能粒子反应末态强子多重数与其质量之间满足简单普适经验公式 .计算了e+e- 湮没与 pp(p)反应过程的直生介子与重子多重数 ,与经验公式中的参数完全一致 .对经验公式中与反应能量有关的参数给出合理解释 ,并讨论了质量普适关系的原因 . [author_cn] => 刘希明;张学尧;王海龙 [uri] => https://www.scopus.com/inward/record.uri?eid=2-s2.0-0347085283&partnerID=40&md5=f7c8012d2dc72fdff787592d80dc5f67 [jl_publication_cn] => 高能物理与核物理 [jl_keyword_cn] => ,普适质量关系,高能反应,直生介子重子数 [jl_clc] => o57211 [author_id] => 25735 [author_test] => Array ( [0] => Array ( [sure] => 1 [irmagnum] => 0 [u_index] => 2 [name] => 张学尧 [sys_author_id] => Array ( [0] => 25735 ) [irtag] => 0 [t_index] => 0 [person_id] => 25735 ) ) [company_id] => 133,0,5 [sys_subject_sort] => 0,0 [college_parent_id] => 133,5 [company_test] => Array,Array [sys_author_id_arr] => 25735张学尧 [jl_publication_cn_publication_en] => highenergyphysicsandnuclearphysicschineseedition,高能物理与核物理 [jl_keyword_cn_keyword_en] => 直生介子重子数,高能反应,highenergyreaction,普适质量关系,directlyproductionratesofmesonsand,baryons,universalmassdependence [format_scopus_No] => b2ce7e427111403d3932ee2b86515a68-2110283251 [format_wos_No] => c4c739c0a536801b030f693d9f7832d1-849544633 [standard_in] => Department of Physics, Shandong University, Ji\' nan 250100, China [cauthor] => Liu, XM(xmliu@sdu.edu.cn) [cite_scopus] => 1 [scopus_No] => 2-s2.0-0347085283 [format_title_cn_publication_cn_pub_year] => 00ada8b461a5b96cd2f6239292aee7e7869932738 [format_title_cn_issn_pub_year] => d659a2acd283e22b0e7d4d34a70f09231616572007 [jl_author_test] => usureu0,upersonid22482,upersonid22461,unameuu5218u96eau6885,uirauthortype0,uirauthortype3,unameuu5218u79c0u7f8e,upersonid26412,upersonid25718,uirtstag0,unameuu5218u5fc3u660e,unameuu5f20u5b66u5c27,unameuu5218u76f8u6885,upersonid25735,upersonid22492,uuindex2,uuindex3,uuindex1,utindex1,utindex0,uirtag7,uirtag6,uirinspecttag0,upersonid22472,uirtag0,unameuu738bu6d77u9f99,uirtypical3,uirtypical1,unameuu5f20u6653u8339 [sys_author_jg_last_arr] => 山东大学物理系济南250100,山东大学物理系济南250100,山东大学物理系济南250100 [jl_company_test] => uircu0,uparentidu5,uorgidu5,unameuu7269u7406u5b66u9662,ulevelu1 [sys_author_in_last_arr] => china [sys_author_id] => [id] => Xwd5vWUBFjIhTVEbsFPK [tags] => 0 ) [15] => Array ( [batch2] => 1,2 [batch] => 3241,3254,3252 [tag] => 0 [abstract_cn] => 利用北京谱仪 (BES)收集的 7 8× 1 0 6 J/ ψ事例 ,对J/ ψ→γγV(ρ,)衰变道中的η(1 43 0 )共振态进行了分析 .从J/ ψ→γγρ衰变模式得到其质量及衰变宽度分别为 1 43 1± 1 7MeV和 88± 2 8MeV ,衰变分支比Br(J/ ψ→γη(1 43 0 ) )Br(η(1 43 0 )→γρ) =(1 1± 0 5± 0 3 )× 1 0 - 4;而从J/ ψ→γγ衰变模式得到其质量及衰变宽度分别为 1 42 4± 1 5MeV和 73± 58MeV ,衰变分支比Br(J/ ψ→γη(1 43 0 ) )Br(η(1 43 0 )→γ) =(2 0± 1 0± 0 6)× 1 0 - 4. [keyword_cn] => J/Ψ;共振态;介子;胶子球;衰变; [clc] => O572.3 [author_jg] => [白景芝]中国科学院高能物理研究所,北京100039,中国.@@@[何瑁]山东大学物理系,济南250100,中国 [format_title_cn_publication_cn_pub_year] => 8cb1ef73f18a86c8637ce8a4365ba7e7-750628300 [from_id] => 80,73,85 [issue] => 10 [sys_level_num] => 2_1 [sys_jg_type] => 9,5 [source_type] => 351 [pub_year] => 2000 [article_id] => 333364,76045,167568 [pages] => 9 [hints] => 3 [author_cn] => 白景芝[1];何瑁[2];等 [issn] => 0254-3052 [uri] => http://lib.cqvip.com/qk/92043X/200010/4915027.html [publication_cn] => 高能物理与核物理 [title_cn] => J/Ψ→γγ(ρφ)衰变的实验研究 [CSSN] => 11-1825/O4 [SYS_TAG] => 3 [format_title_cn_issn_pub_year] => f53cf9ac89fb20709e27550018e55e7d-2024610521 [hb_type] => 2 [jl_publication_cn] => 高能物理与核物理 [jl_country] => 中国 [jl_keyword_cn] => ,共振态,衰变,介子,胶子球,jΨ [jl_clc] => o5723 [author_in] => [Bai, JZ; Ban, Y; Bian, JG; Chen, AD; Chen, GP; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Chen, BS; Chu, YP; Cui, XZ; Ding, HL; Dai, YS; Dong, LY; Du, ZZ; Gao, CS; Gao, SQ; Gu, SD; Guo, YN; Guo, ZJ; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, JL; Hu, QH; Hu, T; Huang, GS; Huang, XP; Huang, YZ; Jiang, CH; Jin, Y; Ju, X; Ke, ZJ; Lai, YF; Lang, PF; Li, CG; Li, D; Li, HB; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XH; Li, XQ; Li, ZC; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, JM; Mao, HS; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Shen, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LZ; Wang, LS; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Wu, YG; Xi, DM; Xia, XM; Xie, XX; Xie, YH; Xu, GF; Xue, ST; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yu, ZQ; Yuan, Y; Zhang, BY; 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Zhuang, BA; Zou, BS] Univ Sci & Technol China, Dept Modern Phys, Hefei 230026, Peoples R China.@@@[Bai, JZ; Ban, Y; Bian, JG; Chen, AD; Chen, GP; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Chen, BS; Chu, YP; Cui, XZ; Ding, HL; Dai, YS; Dong, LY; Du, ZZ; Gao, CS; Gao, SQ; Gu, SD; Guo, YN; Guo, ZJ; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, JL; Hu, QH; Hu, T; Huang, GS; Huang, XP; Huang, YZ; Jiang, CH; Jin, Y; Ju, X; Ke, ZJ; Lai, YF; Lang, PF; Li, CG; Li, D; Li, HB; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XH; Li, XQ; Li, ZC; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, JM; Mao, HS; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Shen, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; 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Ban, Y; Bian, JG; Chen, AD; Chen, GP; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Chen, BS; Chu, YP; Cui, XZ; Ding, HL; Dai, YS; Dong, LY; Du, ZZ; Gao, CS; Gao, SQ; Gu, SD; Guo, YN; Guo, ZJ; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, JL; Hu, QH; Hu, T; Huang, GS; Huang, XP; Huang, YZ; Jiang, CH; Jin, Y; Ju, X; Ke, ZJ; Lai, YF; Lang, PF; Li, CG; Li, D; Li, HB; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XH; Li, XQ; Li, ZC; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, JM; Mao, HS; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Shen, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LZ; Wang, LS; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Wu, YG; Xi, DM; 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Zheng, LS; Zheng, ZP; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS] Henan Normal Univ, Dept Phys & Informat Engn, Xinxiang 453002, Peoples R China.@@@[Bai, JZ; Ban, Y; Bian, JG; Chen, AD; Chen, GP; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Chen, BS; Chu, YP; Cui, XZ; Ding, HL; Dai, YS; Dong, LY; Du, ZZ; Gao, CS; Gao, SQ; Gu, SD; Guo, YN; Guo, ZJ; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, JL; Hu, QH; Hu, T; Huang, GS; Huang, XP; Huang, YZ; Jiang, CH; Jin, Y; Ju, X; Ke, ZJ; Lai, YF; Lang, PF; Li, CG; Li, D; Li, HB; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XH; Li, XQ; Li, ZC; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, JM; Mao, HS; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; 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[format_title] => 6a3b3c0c9c3ac0f12f7143cbef1403531382998945 [author_fn] => Bai, JZ; Ban, Y; Bian, JG; Chen, AD; Chen, GP; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Chen, BS; Chu, YP; Cui, XZ; Ding, HL; Dai, YS; Dong, LY; Du, ZZ; Gao, CS; Gao, SQ; Gu, SD; Guo, YN; Guo, ZJ; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, JL; Hu, QH; Hu, T; Huang, GS; Huang, XP; Huang, YZ; Jiang, CH; Jin, Y; Ju, X; Ke, ZJ; Lai, YF; Lang, PF; Li, CG; Li, D; Li, HB; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XH; Li, XQ; Li, ZC; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, JM; Mao, HS; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Shen, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LZ; Wang, LS; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Wu, YG; Xi, DM; Xia, XM; Xie, XX; Xie, YH; Xu, GF; Xue, ST; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yu, ZQ; Yuan, Y; Zhang, BY; Zhang, CC; Zhang, C; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, M; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS [format_title_en_issn_pub_year] => 923b0c9c5103df731380f6c8568fb0352128268415 [publication_29] => HIGH ENERG PHYS NUC [end_page] => 900 [abstract_en] => Based on 7.8 x 10(6) J/psi events collected by BES experiment, J/psi radiative decay J/psi-->gamma gamma V(rho, phi) have been studied. The eta(1430) resonance has been observed in these two channels respectively. Its mass,width and branching ratio are 1431 +/- 17MeV, 88 +/- 28MeV, and Br (J/psi-->gamma eta(1430)) Br(eta(1430)-->gamma rho) = (1.1 +/- 0.5 +/- 0.3) x 10(-4) from J/psi-->gamma gamma rho mode,1424 +/- 15MeV, 73 +/- 58MeV, and Br(J/psi-->gamma eta(1430)) Br(eta(1430)-->gamma phi) = (2.0 +/- 1.0 +/- 0.6) x 10(-4) from J/psi-->gamma gamma phi mode. [researcherID] => Hong, Tao/F-8166-2010 [orcID] => Hong, Tao/0000-0002-0161-8588 [article_dt] => Article [publication_type] => J [begin_page] => 892 [author_en] => Bai, JZ; Ban, Y; Bian, JG; Chen, AD; Chen, GP; Chen, HF; Chen, HS; Chen, JC; Chen, XD; Chen, YB; Chen, BS; Chu, YP; Cui, XZ; Ding, HL; Dai, YS; Dong, LY; Du, ZZ; Gao, CS; Gao, SQ; Gu, SD; Guo, YN; Guo, ZJ; Han, SW; Han, Y; He, JT; He, J; He, KL; He, M; He, X; Heng, YK; Hong, T; Hu, GY; Hu, HM; Hu, JL; Hu, QH; Hu, T; Huang, GS; Huang, XP; Huang, YZ; Jiang, CH; Jin, Y; Ju, X; Ke, ZJ; Lai, YF; Lang, PF; Li, CG; Li, D; Li, HB; Li, JC; Li, J; Li, PQ; Li, QJ; Li, RY; Li, W; Li, WG; Li, XN; Li, XH; Li, XQ; Li, ZC; Liu, B; Liu, F; Liu, HM; Liu, J; Liu, JP; Liu, RG; Liu, Y; Liu, ZX; Liu, F; Lu, GR; Lu, F; Lu, JG; Lu, ZJ; Luo, XL; Ma, EC; Ma, JM; Mao, HS; Mao, ZP; Meng, XC; Mo, XH; Nie, J; Nie, ZD; Qi, ND; Qi, XR; Qian, CD; Qiu, JF; Que, YK; Rong, G; Shao, YY; Shen, BW; Shen, DL; Shen, H; Shen, XY; Shen, HY; Shi, F; Shi, HZ; Song, XF; Sun, HS; Sun, LF; Sun, YZ; Tang, SQ; Tong, GL; Wang, JZ; Wang, J; Wang, L; Wang, LZ; Wang, LS; Wang, PL; Wang, P; Wang, SM; Wang, YY; Wang, ZY; Wei, CL; Wu, N; Wu, YG; Xi, DM; Xia, XM; Xie, XX; Xie, YH; Xu, GF; Xue, ST; Yan, WG; Yang, CY; Yang, CM; Yang, GA; Yang, HX; Yang, XF; Ye, MH; Ye, SW; Ye, YX; Yu, CS; Yu, CX; Yu, GW; Yu, ZQ; Yuan, Y; Zhang, BY; Zhang, CC; Zhang, C; Zhang, DH; Zhang, HL; Zhang, J; Zhang, JW; Zhang, LS; Zhang, L; Zhang, L; Zhang, QJ; Zhang, SQ; Zhang, XY; Zhang, YY; Zhang, ZP; Zhang, HY; Zhang, P; Zhao, DX; Zhao, HW; Zhao, JW; Zhao, JW; Zhao, M; Zhao, PP; Zhao, WR; Zhao, YB; Zhao, ZG; Zheng, JP; Zheng, LS; Zheng, ZP; Zhou, BQ; Zhou, GM; Zhou, L; Zhu, KJ; Zhu, QM; Zhu, YS; Zhu, ZA; Zhu, YC; Zhuang, BA; Zou, BS [volume] => 24 [publisher] => SCIENCE PRESS [get_data] => 2018-08-29 [keyword_en] => J/Psi; resonance; meson; glueball [page] => 892-900 [keyword_plu] => GEV/C [format_publication_cn] => 1e4ba0a3cae0934c4c5e0c2149a71c3c35052158 [publication_iso] => High Energy Phys. Nucl. Phys.-Chin. Ed. [format_title_en_publication_en_pub_year] => 3dc391d3bce67c56c80524a950eb8fb1-529682636 [format_title_en] => a02c2785567f79579c927e429523f89c1655850816 [publisher_city] => BEIJING [pub_date] => OCT [cauthor_order] => 1 [hx_id] => 2371 [reference_No] => 11 [format_issn_issue_page_pub_year] => 731a5db879afa37f364950e9d37e17fb-1282318901 [cite_awos] => 0 [wos_No] => WOS:000089929500002 [format_wos_No] => b9d29e7ed057720608a5fafb249dfeae809277798 [wos_sub] => Physics, Nuclear; Physics, Particles & Fields [research_area] => Physics [cauthor_back] => Bai, JZ [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [title_en] => Study of decay J/Psi ->gamma gamma V(rho,phi) [format_publication_en] => 447a5ff97055faf0b52669582cc267d5690401559 [jl_article_dt] => 期刊论文 [id] => _QkwvmUBFjIhTVEb6M9i [tags] => 0 ) [16] => Array ( [batch2] => 1,2 [batch] => 3241,3254,3252 [tag] => 0 [abstract_cn] => 在微扰QCDαs阶(NLO)近似和核(A)的部分分子分布函数采用双重Q^2重标度模型(DQ^2RM)下,讨论了p-N(A)Drell-Yan过程中K因子的变化,结果表明K因子不能近似当作常数,它随靶核子中部分子相关的运动学变量xT(A)显著变化,在ISR和Spp^-S能区,当2×10^-3≤xT(A)<1时,因子随xT(A)减小而显著减小;而xT(A)<2×10^-3时随xT(A)继续减小又显著增加,K因子对核(A)也有一定依赖性,这也是在xT(A)小时较为明显,这种认识对于在超高能对撞区利用Drell-Yan过程(或其类似过程)精确检验某些模型或物理量都是重要的。 [keyword_cn] => DRELL-YAN过程;K因子;核效应;DQ^2RM;靶核;高能碰撞;非常数性;核环境; [clc] => O572 [author_jg] => [刘春秀]山东大学物理系,济南250100,中国.@@@[彭宏安]河北师范大学物理系,河北050016,中国 [format_title_cn_publication_cn_pub_year] => aec87b0fc4443de9de7df310e1839f3b662130049 [from_id] => 80,73,85 [issue] => 2 [sys_level_num] => 2_1 [sys_jg_type] => 0,5 [source_type] => 351 [pub_year] => 2000 [article_id] => 333637,76043,167566 [pages] => 9 [hints] => 4 [author_cn] => 刘春秀[1];彭宏安[2];等 [issn] => 0254-3052 [uri] => http://lib.cqvip.com/qk/92043X/200002/5435687.html [publication_cn] => 高能物理与核物理 [title_cn] => p—N(A)Drell—Yan过程K因子的非常数性和核环境影响 [CSSN] => 11-1825/O4 [SYS_TAG] => 3 [format_title_cn_issn_pub_year] => 78f1c7640f503ac8fd74fe986144d92d1905651209 [hb_type] => 2 [jl_publication_cn] => 高能物理与核物理 [jl_country] => 中国 [jl_keyword_cn] => ,靶核,drellyan过程,高能碰撞,k因子,核效应,核环境,非常数性,dq2rm [jl_clc] => o572 [author_in] => [Liu, CX; He, ZM; Duan, CG; Peng, HA]Shandong Univ, Dept Phys, Jinan 250100, Peoples R China.@@@[Liu, CX; He, ZM; Duan, CG; Peng, HA] Hebei Teachers Univ, Dept Phys, Shijiazhuang 050016, Peoples R China.@@@[Liu, CX; He, ZM; Duan, CG; Peng, HA] Peking Univ, Dept Phys, Beijing 100871, Peoples R China. [company_id] => 133,5 [sys_subject_sort] => 0,0 [college_parent_id] => 133,5 [company_test] => Array,Array [author_id] => [author_test] => Array ( ) [sys_author_id_arr] => [jl_publication_cn_publication_en] => 高能物理与核物理 [jl_keyword_cn_keyword_en] => 非常数性,核效应,k因子,drellyan过程,高能碰撞,靶核,dq2rm,核环境 [sys_author_id] => [hb_batch] => grant_no [publication_en] => HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION [cite_wos] => 5 [check_3Y] => 0 [language] => Chinese [delivery_No] => 291DX [format_title] => 3d527e1477a49f405b8e38dab4e4792d1354229262 [cauthor_ad] => [Liu, CX]Shandong Univ, Dept Phys, Jinan 250100, Peoples R China. [author_fn] => Liu, CX; He, ZM; Duan, CG; Peng, HA [cite_wanfang] => 5 [format_title_en_issn_pub_year] => df17ab1452640ff3244fefa41fc48927-1353173460 [publication_29] => HIGH ENERG PHYS NUC [end_page] => 139 [abstract_en] => Based on the next leading order (NLO) perturbative QCD calculation and adopted parton distribution functions from double Q(2)-rescaling model (DQ(2)RM) in nuclei, we have discussed the variation of K-factors in p-N(A) Drell-Yan process. Our results show that K-factors could not be treated as constants as usual, but are varied markedly with the kinimatic variable x(T(A)). In the ISR and SppS energy regions, when 2 x 10(-3) less than or equal to x(T(A)) <1, K-factors decrease markedly as x(T(A)) becomes smaller, but after x(T(A)) < 2 x 10(-3), Their values increase rapidly as x(T(A)) further decrease. K-factor has a little dependence on nucleon number A of a nuclei also, and their effects are more clear in small x(T(A)) region. These observations are important for stringent test of some models and some physical quanties with Drell-Yan (Drell-Yan like) process in super-high energy regions. [publication_type] => J [begin_page] => 131 [article_dt] => Article [author_en] => Liu, CX; He, ZM; Duan, CG; Peng, HA [volume] => 24 [get_data] => 2018-08-29 [publisher] => SCIENCE PRESS [keyword_en] => Drell-Yan process; Kappa-factor; nuclear effects [page] => 131-139 [keyword_plu] => K-FACTOR [format_publication_cn] => 1e4ba0a3cae0934c4c5e0c2149a71c3c35052158 [publication_iso] => High Energy Phys. Nucl. Phys.-Chin. Ed. [format_title_en_publication_en_pub_year] => 91c9bbeacba562e63a55ad0f51d1afeb2024328997 [format_title_en] => 092a03aeb27bc46ae6ecf0465a8d155d1713097493 [publisher_city] => BEIJING [pub_date] => FEB [cauthor_order] => 1 [hx_id] => 2371 [reference_No] => 13 [format_issn_issue_page_pub_year] => bc21edfceb07a58f00ad9f1d0d68e47c-348955946 [cite_awos] => 6 [wos_No] => WOS:000085719800007 [format_wos_No] => 656fd24261eb84ca3fe299026fbbe884-1598471480 [wos_sub] => Physics, Nuclear; Physics, Particles & Fields [research_area] => Physics [cauthor_back] => Liu, CX [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [title_en] => Non-constancy and the effect of nuclear environment of Kappa-Factors in p-N(A) Drell-Yan process [format_publication_en] => 447a5ff97055faf0b52669582cc267d5690401559 [jl_article_dt] => 期刊论文 [id] => -wkwvmUBFjIhTVEb6M9i [tags] => 0 ) [17] => Array ( [batch2] => 1,2 [batch] => 3250,3241,3254,3252 [tag] => 0 [abstract_cn] => TeVγ射线在星系际空间传播过程中将与红外背景光子作用而被衰减或吸收 .大气 ˇC成像望远镜实验观测到了Mrk42 1和Mrk5 0 1处于活动高态时的TeVγ射线发射并测出它们的能谱 .报道了利用TibetⅡ /HD阵列在 1995年10月至 1997年至 8月收集的数据 ,通过Mrk42 1和Mrk5 0 1的能谱研究星系际红外背景光子吸收现象的初步结果 .结果显示 :直到 30TeV能区尚未观测到Mrk42 1和Mrk5 0 1能谱中存在统计上具有显著意义的红外背景光子吸收10TeVγ射线的现象 [keyword_cn] => 宇宙射线;大气簇射;活动星系核;红外背景辐射 [article_id] => 123547,595378,333476,167558 [clc] => O572.3 [author_jg] => [许贤武,丁林恺,曹培圆,戴本忠,冯振勇,傅宇,郭宏伟,何瑁,黄庆,霍安祥,贾焕玉,李金玉,刘绍敏,卢红,陆穗苓,罗光宣,梅东明,孟宪茹,木钧,彭朝然,任敬儒,史策,施志政,谭有恒,王承瑞,王辉,余光策,袁爱芳,张春生,张慧敏,张吉龙,张乃健,张学尧,扎西桑珠,扎西次仁,周文德]中国科学院高能物理研究所宇宙线和高能天体物理开放实验室!北京100039,中国科学院高能物理研究所宇宙线和高能天体物理开放实验室!北京100039,山东大学物理系!济南250100,云南大学物理系!昆明650091,西南交通大学物理系!成都610031,西藏大学数理系!拉萨850000,西藏大学数理系! [format_title_cn_publication_cn_pub_year] => 06d200bb0e9461888d51f415c0a13b38-1067292283 [hints] => 4 [issue] => 8 [sys_level_num] => 2_3 [sys_jg_type] => 10,5 [format_issn_issue_page_pub_year] => 12d14daa750467f3fdaf649da5c7b9281832228455 [source_type] => 351 [pub_year] => 2000 [pub_date] => AUG [pages] => 5 [from_id] => 80,78,73,85 [author_cn] => 许贤武,丁林恺,曹培圆,戴本忠,冯振勇,傅宇,郭宏伟,何瑁,黄庆,霍安祥,贾焕玉,李金玉,刘绍敏,卢红,陆穗苓,罗光宣,梅东明,孟宪茹,木钧,彭朝然,任敬儒,史策,施志政,谭有恒,王承瑞,王辉,余光策,袁爱芳,张春生,张慧敏,张吉龙,张乃健,张学尧,扎西桑珠,扎西次仁,周文德 [issn] => 0254-3052 [uri] => http://kns.cnki.net/kns/detail/detail.aspx?FileName=KNWL200008000&DbName=CJFQ2000 [publication_cn] => 高能物理与核物理 [title_cn] => 10TeVγ射线的星系际红外背景光子吸收现象的研究 [CSSN] => 11-5641/O4 [SYS_TAG] => 3 [format_title_cn_issn_pub_year] => 5ab0cf0de35486594951dc7fc7c1b162116543406 [page] => 697-701 [hb_type] => 2 [article_dt] => Article [hb_batch] => title_cn_publication_cn_pub_year_2_3 [format_title_en] => 77a785302fd9aaaa26993192719e98ca-980113911 [format_title] => c88a3e38642b2f9b4b583a49b1efb6ab834900048 [hx_id] => 2371 [format_publication_cn] => 1e4ba0a3cae0934c4c5e0c2149a71c3c35052158 [format_publication_en] => 447a5ff97055faf0b52669582cc267d5690401559 [jl_publication_cn] => 高能物理与核物理 [jl_article_dt] => 期刊论文 [jl_keyword_cn] => 活动星系核,红外背景辐射,宇宙射线,大气簇射 [jl_clc] => o5723 [author_in] => [Xu, XW; Ding, LK; Cao, PY; Dai, BZ; Feng, ZY; Fu, Y; Guo, HW; He, M; Huang, Q; Huo, AX; Jia, HY; Li, JY; Liu, SM; Lu, H; Lu, SL; Luo, GX; Mei, DM; Meng, XR; Mu, J; Peng, ZR; Ren, JR; Shi, C; Shi, ZZ; Tan, YH; Wang, CR; Wang, H; Yu, GC; Yuan, AF; Zhang, CS; Zhang, HM; Zhang, JL; Zhang, NJ; Zhang, XY; Zhaxisangzhu; Zhaxiciren; Zhou, WD]CAS, Inst High Energy Phys, Beijing 100039, Peoples R China.@@@[Xu, XW; Ding, LK; Cao, PY; Dai, BZ; Feng, ZY; Fu, Y; Guo, HW; He, M; Huang, Q; Huo, AX; Jia, HY; Li, JY; Liu, SM; Lu, H; Lu, SL; Luo, GX; Mei, DM; Meng, XR; Mu, J; Peng, ZR; Ren, JR; Shi, C; Shi, ZZ; Tan, YH; Wang, CR; Wang, H; Yu, GC; Yuan, AF; Zhang, CS; Zhang, HM; Zhang, JL; Zhang, NJ; Zhang, XY; Zhaxisangzhu; Zhaxiciren; Zhou, WD] Shandong Univ, Dept Phys, Jinan 250100, Peoples R China.@@@[Xu, XW; Ding, LK; Cao, PY; Dai, BZ; Feng, ZY; Fu, Y; Guo, HW; He, M; Huang, Q; Huo, AX; Jia, HY; Li, JY; Liu, SM; Lu, H; Lu, SL; Luo, GX; Mei, DM; Meng, XR; Mu, J; Peng, ZR; Ren, JR; Shi, C; Shi, ZZ; Tan, YH; Wang, CR; Wang, H; Yu, GC; Yuan, AF; Zhang, CS; Zhang, HM; Zhang, JL; Zhang, NJ; Zhang, XY; Zhaxisangzhu; Zhaxiciren; Zhou, WD] Yunnan Univ, Dept Phys, Kunming 650091, Peoples R China.@@@[Xu, XW; Ding, LK; Cao, PY; Dai, BZ; Feng, ZY; Fu, Y; Guo, HW; He, M; Huang, Q; Huo, AX; Jia, HY; Li, JY; Liu, SM; Lu, H; Lu, SL; Luo, GX; Mei, DM; Meng, XR; Mu, J; Peng, ZR; Ren, JR; Shi, C; Shi, ZZ; Tan, YH; Wang, CR; Wang, H; Yu, GC; Yuan, AF; Zhang, CS; Zhang, HM; Zhang, JL; Zhang, NJ; Zhang, XY; Zhaxisangzhu; Zhaxiciren; Zhou, WD] SW Jiaotong Univ, Dept Phys, Chengdu 610031, Peoples R China.@@@[Xu, XW; Ding, LK; Cao, PY; Dai, BZ; Feng, ZY; Fu, Y; Guo, HW; He, M; Huang, Q; Huo, AX; Jia, HY; Li, JY; Liu, SM; Lu, H; Lu, SL; Luo, GX; Mei, DM; Meng, XR; Mu, J; Peng, ZR; Ren, JR; Shi, C; Shi, ZZ; Tan, YH; Wang, CR; Wang, H; Yu, GC; Yuan, AF; Zhang, CS; Zhang, HM; Zhang, JL; Zhang, NJ; Zhang, XY; Zhaxisangzhu; Zhaxiciren; Zhou, WD] Tibet Univ, Dept Math & Phys, Lhasa, Peoples R China. [company_id] => 133,0,5 [sys_subject_sort] => 0,0 [college_parent_id] => 133,5 [company_test] => Array,Array [author_id] => 25735,23932,23933 [author_test] => Array ( [0] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 26 [name] => 王辉 [irtag] => 7 [t_index] => 0 [person_id] => 23933 ) [1] => Array ( [sure] => 1 [irmagnum] => 0 [u_index] => 33 [name] => 张学尧 [irtag] => 0 [t_index] => 0 [person_id] => 25735 ) [2] => Array ( [sure] => 0 [irmagnum] => 0 [u_index] => 26 [name] => 王辉 [sys_author_id] => Array ( [0] => 25735 ) [irtag] => 7 [t_index] => 0 [person_id] => 23932 ) ) [sys_author_id_arr] => 25735张学尧 [jl_publication_cn_publication_en] => 高能物理与核物理 [jl_keyword_cn_keyword_en] => 活动星系核,红外背景辐射,宇宙射线,大气簇射 [sys_author_id] => 25735 [cite_wos] => 0 [publication_en] => HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION [check_3Y] => 1 [language] => Chinese [delivery_No] => 345CW [cauthor_ad] => [Xu, XW]CAS, Inst High Energy Phys, Beijing 100039, Peoples R China. [author_fn] => Xu, XW; Ding, LK; Cao, PY; Dai, BZ; Feng, ZY; Fu, Y; Guo, HW; He, M; Huang, Q; Huo, AX; Jia, HY; Li, JY; Liu, SM; Lu, H; Lu, SL; Luo, GX; Mei, DM; Meng, XR; Mu, J; Peng, ZR; Ren, JR; Shi, C; Shi, ZZ; Tan, YH; Wang, CR; Wang, H; Yu, GC; Yuan, AF; Zhang, CS; Zhang, HM; Zhang, JL; Zhang, NJ; Zhang, XY; Zhaxisangzhu; Zhaxiciren; Zhou, WD [format_title_en_issn_pub_year] => 899e751213349506c8d8fa53ea6e2e50-148004405 [publication_29] => HIGH ENERG PHYS NUC [end_page] => 701 [abstract_en] => TeV gamma rays will be attenuated or absorbed due to the interaction with soft photons in intergalactic space. The spectra of Mrk421 and MrK501 during their flaring have been observed by ACTs. Using the data obtained with Tibet Il IHD AS array from October of 1995 to Augest of 1997,the preliminary results of energy density of intergalactic infrared radiation field are presented in this paper. Analysis shows that no statistically significant absorption evidence of high energy gamma rays is found up to around 30 TeV. [publication_type] => J [begin_page] => 697 [author_en] => Xu, XW; Ding, LK; Cao, PY; Dai, BZ; Feng, ZY; Fu, Y; Guo, HW; He, M; Huang, Q; Huo, AX; Jia, HY; Li, JY; Liu, SM; Lu, H; Lu, SL; Luo, GX; Mei, DM; Meng, XR; Mu, J; Peng, ZR; Ren, JR; Shi, C; Shi, ZZ; Tan, YH; Wang, CR; Wang, H; Yu, GC; Yuan, AF; Zhang, CS; Zhang, HM; Zhang, JL; Zhang, NJ; Zhang, XY; Zhaxisangzhu; Zhaxiciren; Zhou, WD [volume] => 24 [get_data] => 2018-08-29 [publisher] => SCIENCE CHINA PRESS [keyword_en] => cosmic ray; air shower; active galactic nuclei; intergalactic infrared; radiation field [keyword_plu] => INFRARED RADIATION; EVOLUTION [publication_iso] => High Energy Phys. Nucl. Phys.-Chin. Ed. [format_title_en_publication_en_pub_year] => 4f813b4a933792e3f40832a9ecdb6b82-574059290 [publisher_city] => BEIJING [cauthor_order] => 1 [reference_No] => 14 [cite_awos] => 0 [wos_No] => WOS:000088798700001 [format_wos_No] => c251e1f67112edec7a0880373f74e6bd954257049 [wos_sub] => Physics, Nuclear; Physics, Particles & Fields [research_area] => Physics [cauthor_back] => Xu, XW [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [title_en] => Study on the absorption of 10TeV gamma-rays interacting with soft photons in intergalactic space [id] => AQ5HvmUBFjIhTVEbgCrH [tags] => 0 ) [18] => Array ( [issn] => 0254-3052 [delivery_No] => 333TF [batch2] => 1,2,6 [hb_batch] => 3241 [tag] => 0 [author_en] => Xu, XW; Ding, LK; Cao, PY; Dai, BZ; Feng, ZY; Fu, Y; Guo, HW; He, M; Huang, Q; Huo, AX; Jia, HY; Li, JY; Liu, SM; Lu, H; Lu, SL; Luo, GX; Mei, DM; Meng, XR; Mu, J; Peng, ZR; Ren, JR; Shi, C; Shi, ZZ; Tan, YH; Wang, CR; Wang, H; Yu, GC; Yuan, AF; Zhang, CS; Zhang, HM; Zhang, JL; Zhang, NJ; Zhang, XY; Zhaxisangzhu; Zhaxiciren; Zhou, WD [abstract_en] => A lot of data has been accumulated with Tibet II and HD AS array operated successfully since October of 1995 and 1996, respectivley. The preliminary results of searching for steady TeV gamma ray emissions from Crab Nebula with these data were presented in this paper. Analysis shows that the accumulative excess events of steady 3TeV gamma ray emissions from Crab Nebula was increasing stably and the statistical significance reached 3.2 sigma, whereas no statistical significant evidence of steady 10TeV and 30TeV gamma ray emissions was found. [publication_type] => J [keyword_plu] => CERENKOV IMAGING TECHNIQUE; SPECTRUM [author_in] => [Xu, X.W] Key Lab. Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China@@@[ Ding, L.K] Key Lab. Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China@@@[ Cao, P.Y] Department of Physics, Shangdong University, Ji\' nan 250100, China@@@[ Dai, B.Z] Department of Physics, Yunnan University, Kunming 650091, China@@@[ Feng, Z.Y] Department of Physics, South West Jiaotong University, Chengdu 610031, China@@@[ Fu, Y] Department of Physics, Shangdong University, Ji\' nan 250100, China@@@[ Guo, H.W] Dept. of Mathematics and Physics, Tibet University, Lhasa 850000, China@@@[ He, M] Department of Physics, Shangdong University, Ji\' nan 250100, China@@@[ Huang, Q] Department of Physics, South West Jiaotong University, Chengdu 610031, China@@@[ Huo, A.X] Key Lab. Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China@@@[ Jia, H.Y] Department of Physics, South West Jiaotong University, Chengdu 610031, China@@@[ Li, J.Y] Department of Physics, Shangdong University, Ji\' nan 250100, China@@@[ Liu, S.M] Key Lab. Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China@@@[ Lu, H] Key Lab. Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China@@@[ Lu, S.L] Key Lab. Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China@@@[ Luo, G.X] Key Lab. Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China@@@[ Mei, D.M] Dept. of Mathematics and Physics, Tibet University, Lhasa 850000, China@@@[ Meng, X.R] Dept. of Mathematics and Physics, Tibet University, Lhasa 850000, China@@@[ Mu, J] Department of Physics, Yunnan University, Kunming 650091, China@@@[ Peng, Z.R] Key Lab. Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China@@@[ Ren, J.R] Key Lab. Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China@@@[ Shi, C] Key Lab. Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China@@@[ Shi, Z.Z] Key Lab. Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China@@@[ Tan, Y.H] Key Lab. Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China@@@[ Wang, C.R] Department of Physics, Shangdong University, Ji\' nan 250100, China@@@[ Wang, H] Key Lab. Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China@@@[ Yu, G.C] Department of Physics, South West Jiaotong University, Chengdu 610031, China@@@[ Yuan, A.F] Dept. of Mathematics and Physics, Tibet University, Lhasa 850000, China@@@[ Zhang, C.S] Key Lab. Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China@@@[ Zhang, H.M] Key Lab. Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China@@@[ Zhang, J.L] Key Lab. Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China@@@[ Zhang, N.J] Department of Physics, Shangdong University, Ji\' nan 250100, China@@@[ Zhang, X.Y] Department of Physics, Shangdong University, Ji\' nan 250100, China@@@[ Zhaxisangzhu Dept. of Mathematics and Physics] Tibet University, Lhasa 850000, China@@@[ Zhaxiciren Dept. of Mathematics and Physics] Tibet University, Lhasa 850000, China@@@[ Zhou, W.D] Department of Physics, Yunnan University, Kunming 650091, China [publisher_city] => BEIJING [cauthor_back] => Xu, XW [get_data] => 2018-08-29 [format_title_en_publication_en_pub_year] => 5b1c1410df7188f2ae1f67c58722a19b334907217 [begin_page] => 473 [cite_wos] => 1 [check_3Y] => 1 [cite_awos] => 1 [from_id] => 76,80,78,73,85 [cauthor_ad] => [Xu, XW]Chinese Acad Sci, Inst High Energy Phys, Key Lab Cosm Ray & High Energy Astrophys, Beijing 100039, Peoples R China. 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Cosmic Ray High Ener. A., Institute of High Energy Physics, CAS, Beijing 100039, China; Department of Physics, Shangdong University, Ji\' nan 250100, China; Department of Physics, Yunnan University, Kunming 650091, China; Department of Physics, South West Jiaotong University, Chengdu 610031, China; Dept. of Mathematics and Physics, Tibet University, Lhasa 850000, China [scopus_No] => 2-s2.0-20244378649 [format_title_cn_publication_cn_pub_year] => cb202d69901d03aa892c25134ef3f0a11177968961 [format_title_cn_issn_pub_year] => f85a7818d9a2270c5a92160c85d759d4-1430392715 [jl_author_test] => upersonid23911,usureu0,unameuu738bu8f89,unameuu738bu534e,unameuu5218u5b88u6c11,unameuu738bu7ea2,upersonid23921,unameuu5f20u9521u5b87,unameuu5218u5c1au660e,uirauthortype0,uirauthortype3,upersonid23932,upersonid23933,upersonid22406,upersonid23919,unameuu5218u4e16u660e,upersonid26122,uirtstag0,upersonid25353,unameuu5f20u6653u71d5,upersonid25414,unameuu5f20u5b66u5c27,upersonid25719,uuindex13,unameuu5f20u7199u9896,uuindex33,uuindex30,upersonid25735,uuindex36,unameuu5468u536bu4e1c,unameuu5f20u5b58u751f,uuindex1,unameuu5f20u7ea2u6885,unameuu5f20u884cu611a,utindex0,uirtag7,uirinspecttag0,utindex1,upersonid24792,uirtag0,upersonid22416,upersonid23920,upersonid22414,upersonid23922,unameuu738bu704f,unameuu5f20u534eu6885,uirtypical1,uuindex31,upersonid25408,unameuu5f20u5bb6u826f,unameuu5f90u6653u6587,unameuu5f20u6653u9633,upersonid25689,uuindex29,upersonid25692,upersonid23910,upersonid25428,upersonid25444,upersonid25720,uuindex26 [sys_author_jg_last_arr] => 850000 [sys_author_in_last_arr] => china [sys_author_id] => 25735 [sys_subject_sort] => 0,0 [college_parent_id] => 133,5 [company_test] => Array,Array [id] => KAifvWUBFjIhTVEbTN9t [tags] => 0 ) [19] => Array ( [reference_No] => 12 [batch2] => 1,2,6 [hb_batch] => 3246 [ei_No] => 2004057899571 [tag] => 0 [author_en] => Liang, ZT [abstract_en] => This is the written version of my talk given at the 5th Chinese National Conference on High Energy Physics held in Chengde, April 21st to 25th, 1998. A number of striking spin effects have been observed in high energy hadron-hadron collision experiments. Searching the origins of these effects has been and is a hot topic in High Energy Physics. In the past few years, with the common efforts of the experimentalists and theoretians, a large step forward has been made although many questions still remain to be answered. These results show that the study of the origins of these effects can indeed provide useful information for hadron structure and high energy reaction mechanisms. It shows also that these effects themselves can be used as a tool to probe these mechanisms. For example, it has been pointed out that, they may be used to study the properties of reaction of small-x, virtual photon with hadrons. In this talk, I will briefly summarize the experimental results on these effects and the main conclusions of the theoretical studies, and then make a brief introduction to the main ideas and the results. [author_in] => [Liang, Z] Department of Physics, Shandong University, Jianan 250100, China [format_title_en_publication_en_pub_year] => f5719b99e3a7eb109bbdf07d4347fc92-7636500 [from_id] => 76,80,74,73,78 [issue] => 2 [hx_id] => 2376,2378,2371 [classification_pub] => KNWLD [datebase] => Scopus [sys_level_num] => 1_4 [sys_jg_type] => 0,5 [format_issn_issue_page_pub_year] => e3fe0192ca3ab924191b62565f9c1c83-740932632 [title_en] => Spin effects and high energy reaction mechanisms [volume] => 23 [author_fn] => Liang, ZT [pub_year] => 1999 [article_id] => 334268,635522,399998,156651,497432 [begin_page] => 195 [hints] => 7 [publisher] => SCIENCE PRESS [language] => Chinese [source_type] => 351 [issn] => 0254-3052 [batch] => 3250,3243,3241,3252,3246 [publication_en] => HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION [school_id] => 117 [sys_update_time] => 2018-09-05 15:28:36 [format_title_en_issn_pub_year] => 3462b1466520de8f6abfd793209297021049635649 [format_ei_No] => 83ef2bfc001e523313b74055bf1a9cd4-1852823358 [SYS_TAG] => 3 [end_page] => 198 [page] => 195-198 [hb_type] => 2 [article_dt] => Article [cite_wos] => 1 [check_3Y] => 0 [delivery_No] => 193FR [format_title] => 6da970b6bd3e5b8531eca9a241ca38721847781326 [cauthor_ad] => [Liang, ZT]Shandong Univ, Dept Phys, Jinan 250100, Peoples R China. [pages] => 4 [publication_29] => HIGH ENERG PHYS NUC [publication_type] => J [get_data] => 2018-08-29 [keyword_en] => single-spin asymmetry; hyperon polarization; small-x(B) physics; initial; state interaction [format_publication_cn] => 1e4ba0a3cae0934c4c5e0c2149a71c3c35052158 [keyword_plu] => LEFT-RIGHT ASYMMETRY; HARD SCATTERING; POLARIZATION; DECAYS [publication_iso] => High Energy Phys. Nucl. Phys.-Chin. Ed. [format_title_en] => bead0e61cd6678febfaecd207caeeb9a240315350 [publisher_city] => BEIJING [pub_date] => FEB [cite_awos] => 1 [wos_No] => WOS:000080125700012 [sys_priority_field] => 76 [wos_sub] => Physics, Nuclear; Physics, Particles & Fields [research_area] => Physics [check_180] => 0 [publisher_ad] => 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA [format_publication_en] => 447a5ff97055faf0b52669582cc267d5690401559 [jl_language] => chinese [jl_article_dt] => 期刊论文 [jl_publication_en] => highenergyphysicsandnuclearphysicschineseedition [jl_country] => 中国 [jl_keyword_en] => smallxbphysics,stateinteraction,initial,singlespinasymmetry,hyperonpolarization [jl_publisher] => sciencepress [author_first] => 梁作堂 [author_jg] => [梁作堂]山东大学物理系!济南250100 [keyword_cn] => 单自旋不对称;;超子极化;;初态相互作用;;小xB物理 [title_cn] => 高能反应机制与自旋效应 [publication_cn] => 高能物理与核物理 [CSSN] => 11-5641/O4 [abstract_cn] => 高能强子一强子反应实验中发现一系列引人注目的自旋效应,这些效应出现的机理一直是人们关注的热门课题之一.近几年,在实验及理论家共同的努力下,虽仍有许多不清楚的问题,但已取得一些突破.结果表明,不仅对这些现象产生机理研究能为强子结构及强子反应机制提供信息,而且这些现象本身也用作探索强子反应机制的工具.例如用它们来研究小xB光子与强子反应的性质.本报告将首先简单总结这些现象及其产生机理研究的结论,然后介绍该例的主要思想及结果. [author_cn] => 梁作堂 [uri] => https://www.scopus.com/inward/record.uri?eid=2-s2.0-0043285438&partnerID=40&md5=0b83a8de763b07349669142c0542255d [jl_publication_cn] => 高能物理与核物理 [jl_keyword_cn] => 单自旋不对称,,小xb物理,初态相互作用,超子极化 [author_id] => 22111 [author_test] => Array ( [0] => Array ( [sure] => 1 [irmagnum] => 0 [u_index] => 1 [name] => 梁作堂 [sys_author_id] => Array ( [0] => 22111 ) [irtag] => 0 [t_index] => 0 [person_id] => 22111 ) ) [company_id] => 133,0,5 [sys_subject_sort] => 0,0 [college_parent_id] => 133,5 [company_test] => Array,Array [sys_author_id_arr] => 22111梁作堂 [jl_publication_cn_publication_en] => highenergyphysicsandnuclearphysicschineseedition,高能物理与核物理 [jl_keyword_cn_keyword_en] => smallxbphysics,超子极化,单自旋不对称,stateinteraction,initial,singlespinasymmetry,初态相互作用,小xb物理,hyperonpolarization [format_scopus_No] => efa1ee2493ec2a60ddd3d57d96b1d0201922459425 [format_wos_No] => 43d959dcaea962c3b929dfc2d92149c7-461182326 [standard_in] => Department of Physics, Shandong University, Jianan 250100, China [scopus_No] => 2-s2.0-0043285438 [format_title_cn_publication_cn_pub_year] => 3b96513a0d27c4932353d34cd522311f-772326119 [format_title_cn_issn_pub_year] => 010cc7ae467b3ed472b447ed14b3df15-1800132936 [jl_author_test] => uirtypical3,uirtstag0,unameuu6881u4f5cu5802,uuindex1,usureu0,utindex0,uirinspecttag0,uirauthortype0,uirtag0,upersonid22111 [sys_author_jg_last_arr] => 山东大学物理系济南250100 [jl_company_test] => uircu0,uparentidu5,uorgidu5,unameuu7269u7406u5b66u9662,ulevelu1 [sys_author_in_last_arr] => china [sys_author_id] => [id] => YQd5vWUBFjIhTVEbslT- [tags] => 0 ) ) 1-->
21. 对Z~0三喷注事例中色联接敏感可观测量的研究 CSCD SCIE

作者:邵凤兰,谢去病,李世渊

作者机构:[邵凤兰] 山东大学物理与微电子学院, 济南, 山东 250100, 中国.;[谢去病] 山东大学物理与微电子学院, 济南, 山东 250100, 中国.;[李世渊] 山东大学物理与微电子学院, 济南, 山东 250100, 中国

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2003,Vol.27,Issue.6,479-483

资源类型:期刊论文

WOS:000183684200003

22. e~+e~-湮没中轻夸克碎裂为粲介子的研究 CSCD SCIE

作者:金毅,李世渊,谢去病

作者机构:[金毅] 山东大学物理与微电子学院, 济南, 山东 250100, 中国.;[李世渊] 山东大学物理与微电子学院, 济南, 山东 250100, 中国.;[谢去病] 山东大学物理与微电子学院, 济南, 山东 250100, 中国

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2003,Vol.27,Issue.10,852-856

资源类型:期刊论文

WOS:000185935300003

23. 直生强子产率的普适质量关系 EI CSCD SCOPUS SCIE

作者:刘希明;王海龙;张学尧;王玉水

作者机构:[刘希明] 山东大学物理系, 济南, 山东 250100, 中国.;[王海龙] 山东大学物理系, 济南, 山东 250100, 中国.;[张学尧] 山东大学物理系, 济南, 山东 250100, 中国.;[王玉水] 山东大学物理系, 济南, 山东 250100, 中国

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2002,Vol.26,Issue.4,313-318

WOS被引数:2

资源类型:期刊论文

WOS:000174942400004

24. BEPC共振事例的碎裂特性 CSCD SCOPUS SCIE

作者:刘希明,张学尧,王海龙,王玉水

作者机构:[刘希明] 山东大学物理系, 济南, 山东 250100, 中国.;[张学尧] 山东大学物理系, 济南, 山东 250100, 中国.;[王海龙] 山东大学物理系, 济南, 山东 250100, 中国.;[王玉水] 山东大学物理系, 济南, 山东 250100, 中国

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2002,Vol.26,Issue.6,557-562

资源类型:期刊论文

WOS:000176245500003

25. 高能e~+e~-湮没强子多重数的质量关系 CSCD SCOPUS SCIE

作者:王海龙,刘希明,王玉水

作者机构:[王海龙] 山东大学物理系, 济南, 山东 250100, 中国.;[刘希明] 山东大学物理系, 济南, 山东 250100, 中国.;[王玉水] 山东大学物理系, 济南, 山东 250100, 中国

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2002,Vol.26,Issue.5,471-476

资源类型:期刊论文

WOS:000175576000006

26. Υ三胶子碎裂粒子产率的普适质量关系 CSCD SCIE

作者:刘希明,张学尧,王海龙,王玉水

作者机构:[刘希明,张学尧,王海龙,王玉水]山东大学物理系,山东大学物理系,山东大学物理系,山东大学物理系 济南250100,济南250100,济南250100,济南250100

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2002,Vol.26,Issue.2,129-133

资源类型:期刊论文

WOS:000173924800007

27. 用e~+e~-→h′s反应中类双喷注事例研究部分子末态的色联接 CSCD SCOPUS SCIE

作者:邵凤兰,谢去病,李世渊

作者机构:[邵凤兰,谢去病,李世渊]山东大学物理与微电子学院,山东大学物理与微电子学院,山东大学物理与微电子学院 济南250100,济南250100,济南250100

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2002,Vol.26,Issue.11,1103-1109

WOS被引数:1

资源类型:期刊论文

WOS:000179331700002

28. J/ψ→π^03(π^+π^—)分支比的测定 SCIE

作者:白景芝[1];班勇[2];卞建国[1];常劲帆[1];陈爱东[1];陈宏芳[3];陈和生[1];陈江川[1];陈鑫东[1];陈元柏[1];程宝森[1];迟少鹏[1];初元萍[1];崔象宗[1];戴又善[4];董燎原[5];杜志珍[1];富洪玉[1];符力平[6];高翠山[1];顾树棣[1];郭子金[1];过雅南[1];韩世温[1];韩缨[1];何景棠[1];何炬[1];何康林[1];何瑁[7];贺翔[1];衡月昆[1];洪涛[1];胡贵云[1];胡海明[1];胡琼辉[1];胡涛[1];黄秀萍[1];黄光顺[5];黄因智[1];季晓斌[7];姜春华[1];金艳[1];柯尊建[1];赖元芬[1];李德[1];李海波[5];李会红[8];李家才[1];李金[1];李佩琴[1];李秋菊[1];李仁英[1];李蔚[1];李卫国[1];李小男[1];李学潜[9];刘斌[1];刘峰[8];刘怀民[1];刘靖[1];刘觉平[10];刘荣光[1];刘天容[1];刘延[1];刘钟秀[1];柳峰[1];鲁公儒[11];吕峰[1];吕军光[1];吕志坚[1];罗小兰[1];马恩成[1];马凤才[12];马基茂[1];毛泽普[1];孟祥承[1];莫晓虎[1];聂晶[1];聂振东[1];漆纳丁[1];祁向荣[2];钱诚德[13];邱进发[1];阙友昆[1];荣刚[1];邵毓莺[1];沈本蔚[1];沈定力[1];沈红[1];沈肖雁[1];盛华义[1];石峰[1];史焕章[1];宋晓非[1];孙汉生[1];孙良峰[1];孙永昭[1];唐晓[1];唐素秋[1];童国梁[1];王近珠[1];王君[1];王岚[1];王灵淑[1];王曼[1];王萌[1];王佩良[1];王平[1];王少敏[1];王运永[1];王至勇[1];魏诚林[1];吴宁[1];席德明[1];夏小米[1];谢小希[1];许国发[1];徐晔[1];薛生田[1];阎沐霖[3];鄢文标[1];严武光[1];杨长友[1];杨春敏[1];杨贵安[1];杨洪勋[1];杨晓峰[1];叶铭汉[5];叶树伟[3];叶云秀[3];于传松[1];喻纯旭[1];俞国威[1];袁野[1];曾云[6];张炳云[1];张长春[1];张达华[1];张会领[1];张建[1];张家文[1];张良生[1];张琳[1];张勤俭[1];张少强[1];张学尧[7];张月元[1];张子平[3];章红宇[1];章平[1];赵棣新[1];赵海文[1];赵家伟[3];赵京伟[1];赵平平[1];赵维仁[1];赵豫斌[1];赵政国[1];郑建平[1];郑林生[1];郑志鹏[1];钟学初[1];周宝庆[1];周高明[1];周莉[1];朱�

作者机构:[白景芝;卞建国;常劲帆;陈爱东;陈和生;陈江川;陈鑫东;陈元柏;程宝森;迟少鹏;初元萍;崔象宗;杜志珍;富洪玉;高翠山;顾树棣;郭子金;过雅南;韩世温;韩缨;何景棠;何炬;何康林;贺翔;衡月昆;洪涛;胡贵云;胡海明;胡琼辉;胡涛;黄秀萍;黄因智;姜春华;金艳;柯尊建;赖元芬;李德;李家才;李金;李佩琴;李秋菊;李仁英;李蔚;李卫国;李小男;刘斌;刘怀民;刘靖;刘荣光;刘天容;刘延;刘钟秀;柳峰;吕峰;吕军光;吕志坚;罗小兰;马恩成;马基茂;毛泽普;孟祥承;莫晓虎;聂晶;聂振东;漆纳丁;邱进发;阙友昆;荣刚;邵毓莺;沈本蔚;沈定力;沈红;沈肖雁;盛华义;石峰;史焕章;宋晓非;孙汉生;孙良峰;孙永昭;唐晓;唐素秋;童国梁;王近珠;王君;王岚;王灵淑;王曼;王萌;王佩良;王平;王少敏;王运永;王至勇;魏诚林;吴宁;席德明;夏小米;谢小希;许国发;徐晔;薛生田;鄢文标;严武光;杨长友;杨春敏;杨贵安;杨洪勋;杨晓峰;于传松;喻纯旭;俞国威;袁野;张炳云;张长春;张达华;张会领;张建;张家文;张良生;张琳;张勤俭;张少强;张月元;章红宇;章平;赵棣新;赵海文;赵京伟;赵平平;赵维仁;赵豫斌;赵政国;郑建平;郑林生;郑志鹏;钟学初;周宝庆;周高明;周莉]中国科学院高能物理研究所,北京,100039 北京大学技术物理系,北京,100871 中国科学技术大学近代物理系,合肥,230026 浙江大学物理系,杭州,310028 中国高等科学技术中心,北京,100080 湖南大学应用物理系,长沙,410082 山东大学物理系,济南,250100 华中师范大学粒子物理研究所,武汉,430079 南开大学物理学院,天津,300071 武汉大学物理与电子信息学院,武汉,430072 河南师范大学物理与信息工程学院,新乡,453002 辽宁大学物理系,沈阳,110036 上海交通大学应用物理系,上海,200030,中国

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2002,Vol.26,Issue.1,8-16

WOS被引数:1

资源类型:期刊论文

WOS:000173496100002

29. 两种色联接下的重子介子比及重子反重子关联 EI CSCD SCOPUS SCIE

作者:邵凤兰;谢去病

作者机构:[邵凤兰] 山东大学物理与微电子学院, 济南, 山东 250100, 中国.;[谢去病] 山东大学物理与微电子学院, 济南, 山东 250100, 中国

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2002,Vol.26,Issue.8,779-785

WOS被引数:3

资源类型:期刊论文

WOS:000177650700006

30. 利用宇宙线直接测量结果对初级宇宙线能谱参数的调整 EI CSCD SCOPUS SCIE

作者:王永刚;薛良;冯存峰;傅宇;李婕;张学尧;李金玉;张乃健;何瑁;王承瑞;任敬儒;陆穗苓

作者机构:[王永刚] 山东大学物理系, 济南, 山东 250100, 中国.;[薛良] 山东大学物理系, 济南, 山东 250100, 中国.;[冯存峰] 山东大学物理系, 济南, 山东 250100, 中国.;[傅宇] 山东大学物理系, 济南, 山东 250100, 中国.;[李婕] 山东大学物理系, 济南, 山东 250100, 中国.;[张学尧] 山东大学物理系, 济南, 山东 250100, 中国.;[李金玉] 山东大学物理系, 济南, 山东 250100, 中国.;[张乃健] 山东大学物理系, 济南, 山东 250100, 中国.;[何瑁] 山东大学物理系, 济南, 山东 250100, 中国.;[王承瑞] 山东大学物理系, 济南, 山东 250100, 中国.;[任敬儒] 中国科学院高能物理研究所, 北京 100039, 中国.;[陆穗苓] 中国科学院高能物理研究所, 北京 100039, 中国

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2002,Vol.26,Issue.2,108-115

WOS被引数:4

资源类型:期刊论文

WOS:000173924800004

31. 部分子末态的色分离联接对e~+e~-反应中强子产额及其动量谱的影响 EI SCOPUS SCIE

作者:邵凤兰,谢去病

作者机构:[邵凤兰,谢去病]山东大学物理系!济南250100,山东大学物理系!济南250100

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2001,Vol.25,Issue.8,710-719

WOS被引数:6

资源类型:期刊论文

WOS:000170578100002

32. 铁乳胶室中的簇射转换曲线的特征 与γ/强子分辨 SCIE

作者:季晓斌,傅宇,薛良,张学尧,李婕,李金玉,张乃健,何瑁,任敬儒,陆穗苓

作者机构:[季晓斌,傅宇,薛良,张学尧,李婕,李金玉,张乃健,何瑁,任敬儒,陆穗苓]山东大学物理系,山东大学物理系,山东大学物理系,山东大学物理系,山东大学物理系,山东大学物理系,山东大学物理系,山东大学物理系,中国科学院高能物理研究所,中国科学院高能物理研究所 济南250100,济南250100,济南250100,济南250100,济南250100,济南250100,济南250

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2001,Vol.25,Issue.10,1012-1016

资源类型:期刊论文

WOS:000171738000013

33. 高能e~+e~- 湮没三喷注事例的角度不对称性 SCOPUS SCIE

作者:王永刚,刘希明,周建军

作者机构:[王永刚,刘希明,周建军]山东大学物理系!济南250100,山东大学物理系!济南250100,山东大学物理系!济南250100

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2001,Vol.25,Issue.1,6-10

WOS被引数:11

资源类型:期刊论文

WOS:000166446700002

34. 高能强子化过程的自旋转移和轻子诱发反应中超子的极化 EI SCOPUS SCIE

作者:刘春秀;梁作堂

作者机构:[刘春秀]山东大学物理系!济南250100;[梁作堂]山东大学物理系!济南250100

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2001,Vol.25,Issue.6,476-486

资源类型:期刊论文

WOS:000169307600002

35. 高能反应末态强子产率的普适质量关系 EI SCOPUS SCIE

作者:刘希明;张学尧;王海龙

作者机构:[刘希明]山东大学物理系!济南250100;[张学尧]山东大学物理系!济南250100;[王海龙]山东大学物理系!济南250100

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2001,Vol.25,Issue.5,377-382

WOS被引数:1

资源类型:期刊论文

WOS:000169130300002

36. J/Ψ→γγ(ρφ)衰变的实验研究 SCIE

作者:白景芝[1];何瑁[2];等

作者机构:[白景芝]中国科学院高能物理研究所,北京100039,中国.;[何瑁]山东大学物理系,济南250100,中国

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2000,Vol.24,Issue.10,892-900

资源类型:期刊论文

WOS:000089929500002

37. p—N(A)Drell—Yan过程K因子的非常数性和核环境影响 SCIE

作者:刘春秀[1];彭宏安[2];等

作者机构:[刘春秀]山东大学物理系,济南250100,中国.;[彭宏安]河北师范大学物理系,河北050016,中国

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2000,Vol.24,Issue.2,131-139

WOS被引数:5

资源类型:期刊论文

WOS:000085719800007

38. 10TeVγ射线的星系际红外背景光子吸收现象的研究 SCIE

作者:许贤武,丁林恺,曹培圆,戴本忠,冯振勇,傅宇,郭宏伟,何瑁,黄庆,霍安祥,贾焕玉,李金玉,刘绍敏,卢红,陆穗苓,罗光宣,梅东明,孟宪茹,木钧,彭朝然,任敬儒,史策,施志政,谭有恒,王承瑞,王辉,余光策,袁爱芳,张春生,张慧敏,张吉龙,张乃健,张学尧,扎西桑珠,扎西次仁,周文德

作者机构:[许贤武,丁林恺,曹培圆,戴本忠,冯振勇,傅宇,郭宏伟,何瑁,黄庆,霍安祥,贾焕玉,李金玉,刘绍敏,卢红,陆穗苓,罗光宣,梅东明,孟宪茹,木钧,彭朝然,任敬儒,史策,施志政,谭有恒,王承瑞,王辉,余光策,袁爱芳,张春生,张慧敏,张吉龙,张乃健,张学尧,扎西桑珠,扎西次仁,周文德]中国科学院高能物理研究所宇宙线和高能天体物理开放实验室!北京100039,中国科学院高能物理研究所宇宙线和高能天体物理开放实验室!北京100039,山东大学物理系!济南250100,云南大学物理系!昆明650091,西南交通大学物理系!成都610031,西藏大学数理系!拉萨850000,西藏大学数理系!

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2000,Vol.24,Issue.8,697-701

资源类型:期刊论文

WOS:000088798700001

39. TibetⅡ/HD阵列寻找来自蟹状星云的TeVγ射线 SCOPUS SCIE

作者:许贤武,丁林恺,曹培园,戴本忠,冯振勇,傅宇,郭宏伟,何瑁,黄庆,霍安祥,贾焕玉,李金玉,刘绍敏,卢红,陆穗玲,罗光宣,梅东明,孟宪茹,木钧,彭朝然,任敬儒,史策,施志政,谭有恒,王承瑞,王辉,余光策,袁爱芳,张春生,张慧敏,张吉龙,张乃健,张学尧,扎西桑珠,扎西次仁,周文德

作者机构:[许贤武,丁林恺,曹培园,戴本忠,冯振勇,傅宇,郭宏伟,何瑁,黄庆,霍安祥,贾焕玉,李金玉,刘绍敏,卢红,陆穗玲,罗光宣,梅东明,孟宪茹,木钧,彭朝然,任敬儒,史策,施志政,谭有恒,王承瑞,王辉,余光策,袁爱芳,张春生,张慧敏,张吉龙,张乃健,张学尧,扎西桑珠,扎西次仁,周文德]中国科学院高能物理研究所宇宙线和高能天体物理开放实验室!北京100039,中国科学院高能物理研究所宇宙线和高能天体物理开放实验室!北京100039,山东大学物理系!济南250100,云南大学物理系!昆明650091,西南交通大学物理系!成都610031,山东大学物理系!济南250100,西藏大学数理系!

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,2000,Vol.24,Issue.6,473-477

WOS被引数:1

资源类型:期刊论文

WOS:000088146300002

40. 高能反应机制与自旋效应 EI SCOPUS SCIE

作者:梁作堂

作者机构:[梁作堂]山东大学物理系!济南250100

来源:高能物理与核物理,HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION,1999,Vol.23,Issue.2,195-198

WOS被引数:1

资源类型:期刊论文

WOS:000080125700012

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