Projection Operator Approach to Langevin Equations in φ^4 Theory

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概要

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• We apply the projection operator method (POM) to φ^4 theory and derive both quantum and semiclassical equations of motion for the soft modes. These equations have no time-convolution integral term, in sharp contrast with other well-known results obtained using the influence functional method (IFM) and the closed time path method (CTP). However, except for the fluctuation force field terms, these equations are similar to the corresponding equations obtained using IFM with the linear harmonic approximation, which was introduced to remove the time-convolution integral. The quantum equation of motion in POM can be regarded as a kind of quantum Langevin equation in which the fluctuation force field is given in terms of the operators of the hard modes. These operators are then replaced with c-numbers using a certain procedure to obtain a semiclassical Langevin equation. It is pointed out that there are significant differences between the fluctuation force fields introduced in this paper and those introduced in IEM. The arbitrariness of the definition of the fluctuation force field in IFM is also discussed.

• 理論物理学刊行会の論文
• 2002-05-25

著者

• MARUYAMA Masahiro

  Department of Geriatrics and Gerontology, Tohoku University Graduate School of Medicine

• TAKAGI Fujio

  Department of Physics, Tohoku University

• Takagi Fujio

  Department Of Basic Sciences Ishinomaki Senshu University

• Koide Tomoi

  Instituto De Fisica Universidade Federal Do Rio De Janeiro

• Koide T

  Kyoto Univ. Kyoto Jpn

• Koide Tomoi

  Yukawa Institute For Theoretical Physics Kyoto University

• Maruyama M

  Tohoku Univ. Sendai Jpn

• Maruyama Masahiro

  Department Of Geriatrics And Gerontology Tohoku University Graduate School Of Medicine

• Maruyama Masahiro

  Department Of Applied Mathematics Faculty Of Engineering Science Osaka University

• Maruyama Masahiro

  Faculty Of Engineering Science Osaka University

• KOIDE Tomoi

  Department of Physics, Tohoku University

• MARUYAMA Masahiro

  Department of Physics, Tohoku University

• TAKAGI Fujio

  Physics Department, Tohoku University

• Koide Tomio

  Yukawa Institute for Theoretical Physics, Kyoto University

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