A metric with a Lorentz violating parameter is associated with the
bumblebee gravity model. We study the motion of a particle in this
bumblebee background where the dynamical variables satisfy
non-canonical Snyder algebra along with some critical survey on
the classical observations in the bumblebee background to see how
these would likely differ from Schwarzschild background. It has
been found that the perihelion shift acquires a generalized
expression with two independent parameters. One of these two is
connected with the Lorentz violating factor and the other is
involved in the Snyder algebraic formulation. We also observe that
the time period of revolution, in general, acquires a Lorentz
violating factor in the bumblebee background, however, for the
circular orbit, it remains unchanged even in the presence of the
Lorentz violating factor in the bumblebee background. The
parameters used here can be constrained with the same type of
conjecture used earlier.
Thomas–Fermi model is considered here to make it cogent to capture the Planck-scale effect with the use of a generalization of uncertainty relation. Here generalization contains both linear and quadratic terms of momentum. We first reformulate the Thomas–Fermi model for the non-relativistic case. We have shown that it can also be reformulated for taking into account the relativistic effect. We study the dialectic screening for both the non-relativistic and relativistic cases and find out the Fermi length for both the cases explicitly.
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