Saved in:
Bibliographic Details
Main Authors: Zuo, Yi, Yang, Qinghong, Liu, Banggui
Format: Preprint
Published: 2022
Subjects:
Online Access:https://arxiv.org/abs/2212.04982
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866918037754478592
author Zuo, Yi
Yang, Qinghong
Liu, Banggui
author_facet Zuo, Yi
Yang, Qinghong
Liu, Banggui
contents To study various quantum dynamics, it is important to develop effective methods to detect and distinguish different quantum dynamics. A common non-demolition approach is to couple an auxiliary system (ancilla) to the target system, and to measure the ancilla only. By doing so, the target system becomes an environment for the ancilla. Thus, different quantum dynamics of target systems will correspond to different environment properties. Here, we analytically study XX spin chains presenting different kinds of quantum dynamics, namely localized, delocalized, and dephasing dynamics, and build connections between Markovianity and non-Markovianity-the two most common properties of an environment. For a qubit coupled to the XX chain, we derived the reduced density matrix of the qubit through the projection method. Furthermore, when dephasing noise was introduced to the XX chain, we generalized the projection method by introducing an open-system interaction picture - a modification of the Dirac interaction picture. By calculating the reduced density matrix for the qubit analytically and numerically, we found that the delocalized (localized) chain corresponds to the Markovian (non-Markovian) bath when boundary effects are not considered, and the feature of the chain with dephasing noise as a bath is dependent on the dephasing strength. The three kinds of quantum dynamics can be distinguished by measuring the qubit only.
format Preprint
id arxiv_https___arxiv_org_abs_2212_04982
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle Distinguishing quantum dynamics via Markovianity and Non-Markovianity
Zuo, Yi
Yang, Qinghong
Liu, Banggui
Quantum Physics
To study various quantum dynamics, it is important to develop effective methods to detect and distinguish different quantum dynamics. A common non-demolition approach is to couple an auxiliary system (ancilla) to the target system, and to measure the ancilla only. By doing so, the target system becomes an environment for the ancilla. Thus, different quantum dynamics of target systems will correspond to different environment properties. Here, we analytically study XX spin chains presenting different kinds of quantum dynamics, namely localized, delocalized, and dephasing dynamics, and build connections between Markovianity and non-Markovianity-the two most common properties of an environment. For a qubit coupled to the XX chain, we derived the reduced density matrix of the qubit through the projection method. Furthermore, when dephasing noise was introduced to the XX chain, we generalized the projection method by introducing an open-system interaction picture - a modification of the Dirac interaction picture. By calculating the reduced density matrix for the qubit analytically and numerically, we found that the delocalized (localized) chain corresponds to the Markovian (non-Markovian) bath when boundary effects are not considered, and the feature of the chain with dephasing noise as a bath is dependent on the dephasing strength. The three kinds of quantum dynamics can be distinguished by measuring the qubit only.
title Distinguishing quantum dynamics via Markovianity and Non-Markovianity
topic Quantum Physics
url https://arxiv.org/abs/2212.04982