We extend the formalism of the thermodynamic two-time Green’s functions to nonextensive quantum statistical mechanics. Working in the optimal Lagrangian multiplier representation, the q-spectral properties and the methods for a direct calculation of the two-time q Green’s functions and the related q-spectral density (q measures the nonextensivity degree) for two generic operators are presented in strict analogy with the extensive (q=1) counterpart. Some emphasis is devoted to the nonextensive version of the less known spectral density method whose effectiveness in exploring equilibrium and transport properties of a wide variety of systems has been well established in conventional classical and quantum many-body physics. To check how both the equations of motion and the spectral density methods work to study the q-induced nonextensivity effects in nontrivial many-body problems, we focus on the equilibrium properties of a second-quantized model for a high-density Bose gas with strong attraction between particles for which exact results exist in extensive conditions. Remarkably, the contributions to several thermodynamic quantities of the q-induced nonextensivity close to the extensive regime are explicitly calculated in the low-temperature regime by overcoming the calculation of the q grand-partition function.

Two-time Green’s functions and spectral density method in nonextensive quantum statistical mechanics

DE CESARE, Luigi
2008-01-01

Abstract

We extend the formalism of the thermodynamic two-time Green’s functions to nonextensive quantum statistical mechanics. Working in the optimal Lagrangian multiplier representation, the q-spectral properties and the methods for a direct calculation of the two-time q Green’s functions and the related q-spectral density (q measures the nonextensivity degree) for two generic operators are presented in strict analogy with the extensive (q=1) counterpart. Some emphasis is devoted to the nonextensive version of the less known spectral density method whose effectiveness in exploring equilibrium and transport properties of a wide variety of systems has been well established in conventional classical and quantum many-body physics. To check how both the equations of motion and the spectral density methods work to study the q-induced nonextensivity effects in nontrivial many-body problems, we focus on the equilibrium properties of a second-quantized model for a high-density Bose gas with strong attraction between particles for which exact results exist in extensive conditions. Remarkably, the contributions to several thermodynamic quantities of the q-induced nonextensivity close to the extensive regime are explicitly calculated in the low-temperature regime by overcoming the calculation of the q grand-partition function.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11386/1851009
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