Entropy of Schwinger pair production in time-dependent Sauter pulse electric field
Abstract
We investigate entropy of electron-positron pair production in time-dependent Sauter pulse electric field. Both cases of pair longitudinal momentum only and full momentum consideration are examined. We further examine three types of entropy, one is the usual entanglement entropy SE, the other two extensions are thermal distribution entropy STh, and that with the chemical potential correction, STh,CP. For short pulse, SE is higher than STh and vice versa for long pulse. The chemical potential causes the single-particle average thermal distribution entropy STh,CPN to exhibit non-monotonic behavior, similar to the single-particle average entanglement entropy SEN in the short-pulse range. In the full momentum case, we calculate the thermal distribution entropy STh, U via introducing the Unruh temperature as the local effective temperature. We find that both STh, U and SE saturate asymptotically to the constant while the former has a larger asymptotic value. The results presented in this study reveals that the different entropies have some delicate relationships among them.
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