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Prog. Theor. Phys. Vol. 89 No. 3 (1993) pp. 607-622

[ Full Text PDF : FREE ACCESS (1245K) ]

Relation between Method of TCL Equation with External Terms and Relaxation Method

— Quantal Bath Model —

Mizuhiko Saeki

Toyama National College of Maritime Technology, Shinminato 933-02

(Received August 24, 1992)

Abstract:

The relation between the method of TCL equation with external driving terms and the relaxation method is discussed analytically in the quantal bath model. It is shown that the interference term in the former method gives the part of second order in powers of the system-bath interaction in the Kubo formula, and that the former method is simpler than the latter method. It is also shown that the relaxation method neglects the low temperature effects which are given by the first part of interference term, and that the relaxation method in the narrowing limit neglects the effects of the interference term completely. The general form of admittance for the case of decoupled initial condition is given by the method of TCL equation with external driving terms, and can be equal to that for the case of thermal equilibrium initial condition. The above facts are verified by applying to a quantal oscillator. Validity of the second-order perturbation calculations is discussed.


URL : http://ptp.ipap.jp/link?PTP/89/607/
DOI : 10.1143/PTP.89.607

[ Full Text PDF : FREE ACCESS (1245K) ] Citation:

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Citing Article(s) :

  1. Journal of the Physical Society of Japan 68 (1999) pp. 3831-3839 :
    Relation between TCLE Method and Relaxation Method. II
    Mizuhiko Saeki
  2. Journal of the Physical Society of Japan 69 (2000) pp. 1327-1340 :
    Linear Response of a Quantal Spin (S= 1/ 2) Interacting Weakly with Heat Bath
    Mizuhiko Saeki
  3. Progress of Theoretical Physics Vol. 98 No. 5 (1997) pp. 1025-1043 :
    Transverse Susceptibilities of a Quantal Spin (S=1/2)
    Mizuhiko Saeki
  4. Progress of Theoretical Physics Vol. 114 No. 5 (2005) pp. 907-927 :
    A Quantum Field Theoretical Approach to the TCLE Method
    Mizuhiko Saeki
  5. Progress of Theoretical Physics Vol. 115 No. 1 (2006) pp. 1-22 :
    Linear Response in an Interacting Boson System
    Mizuhiko Saeki
  6. Progress of Theoretical Physics Vol. 121 No. 1 (2009) pp. 165-191 :
    Transverse Susceptibilities of Ferromagnetic Spin Wave Interacting with Phonon Reservoir
    Mizuhiko Saeki
  7. Progress of Theoretical Physics Vol. 124 No. 1 (2010) pp. 95-123 :
    Non-Equilibrium Thermo-Field Dynamics for a Fourth-Order Hamiltonian
    Mizuhiko Saeki

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