Spinning and Spinning Deviation Equations for Special Types of Gauge Theories of Gravity
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The problem of spinning and spin deviation equations for particles as defined by their microscopic effect has led many authors to revisit non-Riemannian geometry for being described torsion and its relation with the spin of elementary particles. We obtain a new method to detect the existence of torsion by deriving the equations of spin deviations in different classes of non-Riemannian geometries, using a modified Bazanski method. We find that translational gauge potentials and rotational gauge potentials regulate the spin deviation equation in the presence of Poincare gauge field theory of gravity.
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Spinning test particles in the spacetime of a global monopole
Derives exact integrable non-geodesic trajectories for spinning test particles in global monopole spacetime via MPD equations and symmetries.
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