Finite-time Unruh-DeWitt detector transition rate decomposes into time-independent thermal terms and oscillatory non-thermal transients; thermalization time is exponentially large for small accelerations and inversely proportional to energy gap for large accelerations.
and Satz, A., Transition rate of the Unruh–DeWitt detector in curved spacetime, Class
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Finite-time Unruh effect: Waiting for the transient effects to fade off
Finite-time Unruh-DeWitt detector transition rate decomposes into time-independent thermal terms and oscillatory non-thermal transients; thermalization time is exponentially large for small accelerations and inversely proportional to energy gap for large accelerations.