Effective Sine(h)-Gordon-like equations for pair-condensates composed of bosonic or fermionic constituents

Details Effective Sine(h)-Gordon-like equations for pair-condensates composed of bosonic or fermionic constituents Effective Sine(h)-Gordon-like equations for pair-condensates composed of bosonic or fermionic constituents

2009-06-09

arxiv.org/abs/0906.1749v2

Physics

Condensed Matter

Statistical Mechanics

(vers. 2: adaption of margins)

Scientific paper

An effective coherent state path integral for super-symmetric pair condensates is investigated with specification on the nontrivial coset integration measure. The nontrivial coset integration measure, determined by the square root of the super-determinant of the coset metric tensor, is eliminated by the inverse square root of this coset metric tensor; this results into Euclidean path integration variables for the pair condensate fields. According to the transformation to 'flat' anomalous path integration variables, first order variations of fields can be performed for classical equations with inclusion of second and higher even order variations for universal fluctuations determined by the coset metric tensor of the ortho-symplectic super-manifold.

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