The spatiotemporal doubled density operator: a unified framework for analyzing spatial and temporal quantum processes
Abstract
The measurement statistics for spatial and temporal quantum processes are produced through distinct mechanisms. Measurements that are space-like separated exhibit non-signaling behavior. However, time-like separated measurements can only result in one-way non-signaling, as the past is independent of the future, but the opposite is not true. This work presents the doubled density operator as a comprehensive framework for studying quantum processes in space-time. It effectively captures all the physical information of the process, with the measurement and Born rule showing uniformity for both spatial and temporal cases. We demonstrate that the equal-time density operator can be derived by performing a partial trace operation on the doubled density operator. Furthermore, the temporality of the quantum process can be detected by conducting a partial trace operation on either the left or right half of the doubled density operator.
Cite
@article{arxiv.2305.15649,
title = {The spatiotemporal doubled density operator: a unified framework for analyzing spatial and temporal quantum processes},
author = {Zhian Jia and Dagomir Kaszlikowski},
journal= {arXiv preprint arXiv:2305.15649},
year = {2024}
}
Comments
v1:7+7 pages, comments welcome