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Propagators for Scalar Bound States at Finite Temperature in an NJL Model

Propagators for Scalar Bound States at Finite Temperature in an NJL Model
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摘要 We re-examine physical causal propagators for scalar and pseudoscalar bound states at finite temperature in a chiral NJL model, defined by four-point amputated functions subtracted through the gap equation, and prove that they are completely equivalent in the imaginary-time and real-time formalisms by separating carefully the imaginary part of the zero-temperature loop integral. It is shown that the same thermal transformation matrix of the matrix propagators for these bound states in the real-time formalism is precisely the one of the matrix propagator for an elementary scalar particle and this fact shows the similarity of thermodynamic property between a composite and elementary scalar particle. The retarded and advanced propagators for these bound states are also given explicitly from the imaginary-time formalism.
作者 ZHOUBang-Rong
机构地区 DepartmentofPhysics
出处 《Communications in Theoretical Physics》 SCIE CAS CSCD 2002年第3期303-308,共6页 理论物理通讯(英文版)
基金 国家自然科学基金,中国科学院资助项目
关键词 NJL model thermal field theory the imaginary-time and real-time formalisms four-point amputated functions imaginary part of zero-temperature loop 有限温度 标量束缚态传播子 NJL模型
分类号 O413.3 [理学—理论物理]
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Communications in Theoretical Physics
2002年 第3期

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