Sakarya University Journal Of Science, vol.25, no.3, pp.847-853, 2021 (Peer-Reviewed Journal)
We analyze the effects of the spacetime
topology and angular velocity of rotating frame on the dynamics of a relativistic
vector boson oscillator ().
To determine these effects on the energy of the we solve the corresponding vector boson
equation in the rotating frame of 2+1 dimensional cosmic string-induced spacetime
background. We obtain an exact energy spectrum, which depends on the angular
velocity of the rotating frame and angular deficit parameter of the background. We show that the effects
of angular deficit parameter on each energy level of the cannot be same and the angular velocity of the rotating
frame couples with the spin of the . Furthermore, we have obtained that the angular velocity of
rotating frame breaks the symmetry of the positive-negative energy states.
We analyze the effects of the spacetime
topology and angular velocity of rotating frame on the dynamics of a relativistic
vector boson oscillator ().
To determine these effects on the energy of the we solve the corresponding vector boson
equation in the rotating frame of 2+1 dimensional cosmic string-induced spacetime
background. We obtain an exact energy spectrum, which depends on the angular
velocity of the rotating frame and angular deficit parameter of the background. We show that the effects
of angular deficit parameter on each energy level of the cannot be same and the angular velocity of the rotating
frame couples with the spin of the . Furthermore, we have obtained that the angular velocity of
rotating frame breaks the symmetry of the positive-negative energy states.