期刊
ENTROPY
卷 23, 期 11, 页码 -出版社
MDPI
DOI: 10.3390/e23111377
关键词
decoherence; Quantum Darwinism; many-body localization; disorder
资金
- CONICET [PIP 112201 50100493CO]
- UBACyT [20020130100406BA]
- ANPCyT [PICT-2016-1056]
The study reveals that a highly disordered environment is beneficial for Quantum Darwinism (QD), with increasing disorder leading to higher objectivity in the system. By quantifying the lack of redundancy to estimate the many-body mobility edge, it is found that objectivity increases as the environment size grows.
Quantum Darwinism (QD) is the process responsible for the proliferation of redundant information in the environment of a quantum system that is being decohered. This enables independent observers to access separate environmental fragments and reach consensus about the system's state. In this work, we study the effect of disorder in the emergence of QD and find that a highly disordered environment is greatly beneficial for it. By introducing the notion of lack of redundancy to quantify objectivity, we show that it behaves analogously to the entanglement entropy (EE) of the environmental eigenstate taken as an initial state. This allows us to estimate the many-body mobility edge by means of our Darwinistic measure, implicating the existence of a critical degree of disorder beyond which the degree of objectivity rises the larger the environment is. The latter hints the key role that disorder may play when the environment is of a thermodynamic size. At last, we show that a highly disordered evolution may reduce the spoiling of redundancy in the presence of intra-environment interactions.
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