2018
DOI: 10.1007/s00006-018-0840-4
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Symplectic Field Theories: Scalar and Spinor Representations

Abstract: Using elements of symmetry, as gauge invariance, aspects of field theories represented in symplectic space are introduced and analyzed under physical bases. The states of a system are described by symplectic wave functions, which are associated with the Wigner function. Such wave functions are vectors in a Hilbert space introduced from the cotangent-bundle of the Minkowski space. The symplectic Klein-Gordon and the Dirac equations are derived, and a minimum coupling is considered in order to analyze the Landau… Show more

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Cited by 2 publications
(1 citation statement)
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“…Generalizing the 4D-Poincaré group to the nD case (with an arbitrary signature), we shall call them Poincaré groups. Various representations of the Poincaré groups have been proposed either in specific dimensions or signatures and are often expressed in terms of matrices [4,5,7,8,16,19,21,[24][25][26][27]. Yet, matrices are neither the only nor probably the best way to represent rotation groups.…”
Section: Introductionmentioning
confidence: 99%
“…Generalizing the 4D-Poincaré group to the nD case (with an arbitrary signature), we shall call them Poincaré groups. Various representations of the Poincaré groups have been proposed either in specific dimensions or signatures and are often expressed in terms of matrices [4,5,7,8,16,19,21,[24][25][26][27]. Yet, matrices are neither the only nor probably the best way to represent rotation groups.…”
Section: Introductionmentioning
confidence: 99%