Effect of spacetime dimensions on quantum entanglement between two uniformly accelerated atoms

We investigate the entanglement dynamics for a quantum system composed of two uniformly accelerated Unruh-DeWitt detectors in different spacetime dimensions. It is found that range parameters which can be generated expanded but amount decreased with increasing dimension, by calculating evolution two-atom states using method open systems. study between atoms initial states, and influence corresponding dimensions every state discussed. When increase, change becomes slower time. The on also expands to case massive field. time delay generation shown In particular, decreases more quickly compared massless recent anti-Unruh effect discussed, novel interesting phenomenon Unruh small become large same parameters.