Variational wave equations of two fermions interacting via scalar,pseudoscalar, vector,pseudovector and tensor fields |
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| Authors: | Askold Duviryak Jurij W. Darewych |
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| Affiliation: | (1) Department for Metal and Alloy Theory, Institute for Condensed Matter Physics of the NAS of Ukraine, 1 Svientsitskii St., UA-79011 Lviv, Ukraine;(2) Department of Physics and Astronomy, York University, 4700 Keele St., M3J 1P3 Toronto, Ontario, Canada |
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| Abstract: | We consider a method for deriving relativistic two-body wave equations for fermions in the coordinate representation. The Lagrangian of the theory is reformulated by eliminating the mediating fields by means of covariant Green's functions. Then, the nonlocal interaction terms in the Lagrangian are reduced to local expressions which take into account retardation effects approximately. We construct the Hamiltonian and two-fermion states of the quantized theory, employing an unconventional “empty” vacuum state, and derive relativistic two-fermion wave equations. These equations are a generalization of the Breit equation for systems with scalar, pseudoscalar, vector, pseudovector and tensor coupling. |
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| Keywords: | quantum field theory two-fermion systems relativistic wave equation covariant Green function retardation effect |
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