Gluon Propagator in a New Perturbative Expansion of Quantum Chromodynamics with a Non-Perturbative Background

Gluon Propagator in a New Perturbative Expansion of Quantum Chromodynamics with a Non-Perturbative Background

下载PDF

导出

摘要 Using a new perturbative expansion method in Quantum Chromodynamics with a non-perturbative gluon background, the gluon propagator is calculated up to the one-loop level, and renormalized in the modified minimal subtraction scheme. The resultant renormalization constants of the quantum gluon field and the gauge parameter receive a non-perturbative contribution coming from the gluon condensate <FF> besides the usual perturbative one, respectively. Using a new perturbative expansion method in Quantum Chromodynamics with a non-perturbative gluon background, the gluon propagator is calculated up to the one-loop level, and renormalized in the modified minimal subtraction scheme. The resultant renormalization constants of the quantum gluon field and the gauge parameter receive a non-perturbative contribution coming from the gluon condensate <FF> besides the usual perturbative one, respectively.

作者 Wang Wenyu Liu Jueping(Department of Physics, Wuhan University, Wuhan 430072, China)

出处《Wuhan University Journal of Natural Sciences》 CAS 1998年第4期423-428,共6页 武汉大学学报（自然科学英文版）

关键词 Key words gluon propagator new expansion quantum chromodynamics non perturbative background Key words gluon propagator new expansion quantum chromodynamics non perturbative background

分类号 O572 [理学—粒子物理与原子核物理]

引文网络
相关文献

1L Xiaofu~(1,2,4) Liu Yuxin~(1,3,4) Zhao Enguang~(1,4)1 CCAST(Warld Lab),P.O.Box 8730,Beijng 1000802 Department fo Physics,Sichuan,University,Chengdu 6100643 Department of Physics,Peking Uuiversity,Beijingg 1008714 Institute of Theoretical Physics,the Chinese Acodemy of Sciences,P.O.Box 2735,Beijing 100080.Calculation of fo and m_σ in a QCD-Based Model Field Theory[J].Chinese journal of nuclear physics,1996(3):133-136.
2ZHANG Yan-Bin,PING Jia-Lun,LV Xiao-Fu,ZONG Hong-Shi.Unquenched Effects and Quark Mass Dependence of Lattice Gluon Propagator in Infrared Region[J].Communications in Theoretical Physics,2008,50(7):125-128.
3K.A.Olive,K.Agashe,C.Amsler,M.Antonelli,J.-F.Arguin,D.M.Asner,H.Baer,H.R.Band,R.M.Barnett,T.Basaglia,C.W.Bauer,J.J.Beatty,V.I.Belousov,J.Beringer,G.Bernardi,S.Bethke,H.Bichsel,O.Biebe,E.Blucher,S.Blusk,G.Brooijmans,O.Buchmueller,V.Burkert,M.A.Bychkov,R.N.Cahn,M.Carena,A.Ceccucci,A.Cerr,D.Chakraborty,M.-C.Chen,R.S.Chivukula,K.Copic,G.Cowan,O.Dahl,G.D'Ambrosio,T.Damour,D.de Florian,A.de Gouvea,T.DeGrand,P.de Jong,G.Dissertor,B.A.Dobrescu,M.Doser,M.Drees,H.K.Dreiner,D.A.Edwards,S.Eidelman,J.Erler,V.V.Ezhela,W.Fetscher,B.D.Fields,B.Foster,A.Freitas,T.K.Gaisser,H.Gallagher,L.Garren,H.-J.Gerber,G.Gerbier,T.Gershon,T.Gherghetta,S.Golwala,M.Goodman,C.Grab,A.V.Gritsan,C.Grojean,D.E.Groom,M.Grnewald,A.Gurtu,T.Gutsche,H.E.Haber,K.Hagiwara,C.Hanhart,S.Hashimoto,Y.Hayato,K.G.Hayes,M.Heffner,B.Heltsley,J.J.Hernandez-Rey,K.Hikasa,A.Hocker,J.Holder,A.Holtkamp,J.Huston,J.D.Jackson,K.F.Johnson,T.Junk,M.Kado,D.Karlen,U.F.Katz,S.R.Klein,E.Klempt,R.V.Kowalewski,F.Krauss,M.Kreps,B.Krusche,Yu.V.Kuyanov,Y.Kwon,O.Lahav,J.Laiho,P.Langacker,A.Liddle,Z.Ligeti,C.-J.Lin,T.M.Liss,L.Littenberg,K.S.Lugovsky,S.B.Lugovsky,F.Maltoni,T.Mannel,A.V.Manohar,W.J.Marciano,A.D.Martin,A.Masoni,J.Matthews,D.Milstead,P.Molaro,K.Monig,F.Moortgat,M.J.Mortonson,H.Murayama,K.Nakamura,M.Narain,P.Nason,S.Navas,M.Neubert,P.Nevski,Y.Nir,L.Pape,J.Parsons,C.Patrignani,J.A.Peacock,M.Pennington,S.T.Petcov,Kavli IPMU,A.Piepke,A.Pomarol,A.Quadt,S.Raby,J.Rademacker,G.Raffel,B.N.Ratcliff,P.Richardson,A.Ringwald,S.Roesler,S.Rolli,A.Romaniouk,L.J.Rosenberg,J,L.Rosner,G.Rybka,C.T.Sachrajda,Y.Sakai,G.P.Salam,S.Sarkar,F.Sauli,O.Schneider,K.Scholberg,D.Scott,V.Sharma,S.R.Sharpe,M.Silari,T.Sjostrand,P.Skands,J.G.Smith,G.F.Smoot,S.Spanier,H.Spieler,C.Spiering,A.Stahl,T.Stanev,S.L.Stone,T.Sumiyoshi,M.J.Syphers,F.Takahashi,M.Tanabashi,J.Terning,L.Tiator,M.Titov,N.P.Tkachenko,N.A.Tornqvist,D.Tovey,G.Valencia,G.Venanzoni,M.G.Vincter,P.Vogel,A.Vogt,S.P.Wakely,W.Walkowiak,C.W.Walter,D.R.Ward,G.Weiglein,D.H.Weinberg,E.J.Weinberg,M.White,L.R.Wiencke,C.G.Wohl,L.Wolfenstein,J.Womersley,C.L.Woody,R.L.Workman,A.Yamamoto,W.-M.Yao,G.P.Zeller,O.V.Zenin,J.Zhang,R.-Y.Zhu,F.Zimmermann,P.A.Zyla,G.Harper,V.S.Lugovsky,P.Schaffner.QUANTUM CHROMODYNAMICS[J].Chinese Physics C,2014,38(9):122-138.
4S. Bethke,G. Dissertori,G.P. Salam.QUANTUM CHROMODYNAMICS[J].Chinese Physics C,2016,40(10):132-150.
5S. Hashimoto,J. Laiho,S.R. Sharpe.LATTICE QUANTUM CHROMODYNAMICS[J].Chinese Physics C,2016,40(10):310-320.
6ZHOU LiJuan1, QIN SongMei2, WU Qing3 & MA WeiXing4 1 Collaboration Group of Hadron Physics and Non-perturbative QCD Study, Guangxi University of Tech- nology, Liuzhou 545006, China,2 Department of Physics, Guangxi University, Nanning 540003, China,3 Department of Physics, Qingdao University, Qingdao 266071, China,4 Institute of High Energy Physics, Chinese Academy of Sciences, Beijing 100049, China.Virtualities of quark and gluon in QCD vacuum[J].Science China(Physics,Mechanics & Astronomy),2008,51(10):1439-1447. 被引量：1
7何波,花修坤,朱吾明.BALITZKIJ-FADIN-KURAEV-LIPATOV EQUATION WITH HIGHER ORDER QUANTUM CHROMODYNAMICS EFFEC-TIVE COUPLING[J].Journal of Shanghai Jiaotong university(Science),1998,3(2):36-38.
8ZONG Hong-Shi.The Mixed Quark-Gluon Condensate from the Global Color Symmetry Model[J].Communications in Theoretical Physics,2002(8):205-208.
9徐书生,石远美,杨友昌,崔著钫,宗红石.Discussion of Various Susceptibilities within Thermal and Dense Quantum Chromodynamics[J].Chinese Physics Letters,2015,32(12):26-29.
10WANG Jing,SHI Yuan-Mei,HOU Feng-Yao,SUN Wei-Min,ZONG Hong-Shi,PING Jia-Lun.Numerically Solving Quark-Loop Effects on Dressed Gluon Propagator in Chiral Limit[J].Communications in Theoretical Physics,2008,49(4):1001-1003.

Wuhan University Journal of Natural Sciences

1998年第4期

浏览历史

内容加载中请稍等...

Gluon Propagator in a New Perturbative Expansion of Quantum Chromodynamics with a Non-Perturbative Background

相关作者

相关机构

相关主题

浏览历史