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Hauptverfasser: Hu, Zihao, Yuan, Haidong, Zhang, Zigui, Fung, Chi-Hang Fred, Miao, Zibo
Format: Preprint
Veröffentlicht: 2016
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Online-Zugang:https://arxiv.org/abs/1601.00150
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author Hu, Zihao
Yuan, Haidong
Zhang, Zigui
Fung, Chi-Hang Fred
Miao, Zibo
author_facet Hu, Zihao
Yuan, Haidong
Zhang, Zigui
Fung, Chi-Hang Fred
Miao, Zibo
contents The laws of quantum physics place a limit on the speed of computation. In particular, the evolution time of a system from an initial state to a final state cannot be arbitrarily short. Bounds on the speed of evolution for unitary dynamics have long been studied. A few bounds on the speed of evolution for noisy dynamics have also been obtained recently, which are, however, not tight. In this paper, we present a new framework for quantum speed limit concerning noisy dynamics. Within this framework, we obtain the exact maximum rotation angle that noisy dynamics can achieve at any given time, which gives rise to a tight bound on the evolution time for noisy dynamics. The bound obtained through semi-definite programming highlights the fundamental differences between noisy dynamics and unitary dynamics. Furthermore, we show that the \textit{orthogonalization} time, defined as the minimum time required to evolve any initial state to a state with zero fidelity with respect to the initial state, is generally not applicable to noisy dynamics.
format Preprint
id arxiv_https___arxiv_org_abs_1601_00150
institution arXiv
publishDate 2016
record_format arxiv
spellingShingle Tight bounds of quantum speed limit for noisy dynamics via maximum rotation angles
Hu, Zihao
Yuan, Haidong
Zhang, Zigui
Fung, Chi-Hang Fred
Miao, Zibo
Quantum Physics
The laws of quantum physics place a limit on the speed of computation. In particular, the evolution time of a system from an initial state to a final state cannot be arbitrarily short. Bounds on the speed of evolution for unitary dynamics have long been studied. A few bounds on the speed of evolution for noisy dynamics have also been obtained recently, which are, however, not tight. In this paper, we present a new framework for quantum speed limit concerning noisy dynamics. Within this framework, we obtain the exact maximum rotation angle that noisy dynamics can achieve at any given time, which gives rise to a tight bound on the evolution time for noisy dynamics. The bound obtained through semi-definite programming highlights the fundamental differences between noisy dynamics and unitary dynamics. Furthermore, we show that the \textit{orthogonalization} time, defined as the minimum time required to evolve any initial state to a state with zero fidelity with respect to the initial state, is generally not applicable to noisy dynamics.
title Tight bounds of quantum speed limit for noisy dynamics via maximum rotation angles
topic Quantum Physics
url https://arxiv.org/abs/1601.00150