Journalartikel

Jahr der Veröffentlichung: 2000

Seiten: 17-50

Zeitschrift: International Journal of Modern Physics E

Bandnummer: 9

Heftnummer: 1

ISSN: 0218-3013

eISSN: 1793-6608

DOI Link: https://doi.org/10.1142/S0218301300000039

Verlag: World Scientific Publishing

Abstract: 
We consider a system of Z fermions coupled to a dissipative environment through a two-body potential. We represent the system in a basis of single-particle, two-particle,... Z-particle excitated states. Using a procedure for averaging the rapid oscillations of the reduced density matrix in the interaction picture, the master equation of the system takes the form of a series expansion of powers of the dissipative potential matrix elements. The term of the second-order describes single-particle transitions, while the higher-order terms correspond to correlated transitions of the system particles. For the second- and the third-order terms, we derive microscopic expressions of the dissipative coefficients. For dissipative systems, when the state collectivity is broken into pieces through quantum diffusion, we use the quantum master equation of the second-order approximation. This equation satisfies basic physical conditions: particle conservation, Fermi-Dirac or Bose-Einstein distributions as asymptotic solutions of the populations, and entropy increase. On this basis, the decay of a Fermi system interacting with a many-mode electromagnetic field is described in terms of microscopic quantities: the matrix elements of the dissipative potential, the densities of the environment states, and the occupation probabilities of these states. A near-dipode-dipode interaction of the system with other neighbouring systems is taken into account. In addition to the coupling of the polarization with the population, included in the usual equations for two-level systems as a non-linear detuning, in equations for N-level systems two new couplings of the polarizations appear: a coupling due to the proximity potential, and a coupling due to the local field corrections, as a renormalization of the Rabi frequencies.

Harvard-Zitierstil: Stefanescu, E., Sandulescu, A. and Scheid, W. (2000) The collisional decay of a Fermi system interacting with a many-mode electromagnetic field, International Journal of Modern Physics E, 9(1), pp. 17-50. https://doi.org/10.1142/S0218301300000039

APA-Zitierstil: Stefanescu, E., Sandulescu, A., & Scheid, W. (2000). The collisional decay of a Fermi system interacting with a many-mode electromagnetic field. International Journal of Modern Physics E. 9(1), 17-50. https://doi.org/10.1142/S0218301300000039