Abstract
In this work, we calculate the quasinormal frequencies from a bumblebee
traversable wormhole. The bumblebee wormhole model is based on the
bumblebee gravity, which exhibits a spontaneous Lorentz symmetry
breaking. Supporting by the Lorentz violation parameter lambda, this
model allows for the fulfillment of the flare-out and energy conditions,
granted non-exotic matter to the wormhole. We analyze the parameters of
the bumblebee wormhole in order to obtain a Regge-Wheeler's equation
with a bell-shaped potential. We obtain the quasinormal modes (QNMs) via
the WKB approximation method for both scalar and gravitational
perturbations. The time domain has decreasing oscillation (damping)
profiles for the bumblebee wormhole.
Users
Please
log in to take part in the discussion (add own reviews or comments).