Universal compressive characterization of quantum dynamics
Quantum Physics
2020-05-29 v1
Abstract
Recent quantum technologies utilize complex multidimensional processes that govern the dynamics of quantum systems. We develop an adaptive diagonal-element-probing compression technique that feasibly characterizes any unknown quantum processes using much fewer measurements compared to conventional methods. This technique utilizes compressive projective measurements that are generalizable to arbitrary number of subsystems. Both numerical analysis and experimental results with unitary gates demonstrate low measurement costs, of order for -dimensional systems, and robustness against statistical noise. Our work potentially paves the way for a reliable and highly compressive characterization of general quantum devices.
Cite
@article{arxiv.2005.13776,
title = {Universal compressive characterization of quantum dynamics},
author = {Yosep Kim and Yong Siah Teo and Daekun Ahn and Dong-Gil Im and Young-Wook Cho and Gerd Leuchs and Luis L. Sanchez-Soto and Hyunseok Jeong and Yoon-Ho Kim},
journal= {arXiv preprint arXiv:2005.13776},
year = {2020}
}
Comments
10 pages, 6 figures