Using the Algebra of Physical Space and Scattering Algebra, the authors establish equivalences for spin-1/2 fields with the CSM, propose maps for Wigner-covariance, analyze Lagrangians geometrically, and derive the first APS-based scattering amplitude which produces an anti-Hermitian term.
E(2)-like little group for massless parti- cles and neutrino polarization as a consequence of gauge invariance
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The paper provides an expository review of squeezed states of light and related phenomena using the Wigner phase-space formalism and groups such as Lorentz and symplectic.
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The Scattering Algebra of Physical Space: Wigner-Covariance and Fields
Using the Algebra of Physical Space and Scattering Algebra, the authors establish equivalences for spin-1/2 fields with the CSM, propose maps for Wigner-covariance, analyze Lagrangians geometrically, and derive the first APS-based scattering amplitude which produces an anti-Hermitian term.
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Understanding Squeezed States of Light Through Wigner's Phase-Space
The paper provides an expository review of squeezed states of light and related phenomena using the Wigner phase-space formalism and groups such as Lorentz and symplectic.