Time-Energy Measure for Quantum Processes
Quantum Physics
2013-07-10 v2
Abstract
Quantum mechanics sets limits on how fast quantum processes can run given some system energy through time-energy uncertainty relations, and they imply that time and energy are tradeoff against each other. Thus, we propose to measure the time-energy as a single unit for quantum channels. We consider a time-energy measure for quantum channels and compute lower and upper bounds of it using the channel Kraus operators. For a special class of channels (which includes the depolarizing channel), we can obtain the exact value of the time-energy measure. One consequence of our result is that erasing quantum information requires times more time-energy resource than erasing classical information, where is the system dimension.
Cite
@article{arxiv.1305.5776,
title = {Time-Energy Measure for Quantum Processes},
author = {Chi-Hang Fred Fung and H. F. Chau},
journal= {arXiv preprint arXiv:1305.5776},
year = {2013}
}
Comments
13 pages, 2 figures