Journal
ATOMS
Volume 10, Issue 3, Pages -Publisher
MDPI
DOI: 10.3390/atoms10030081
Keywords
quantum memory; optomechanical system; quantum master equation; Wigner function; coherence revival time
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Funding
- SERB-TARE New Delhi, India [TAR/2020/000189]
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In this study, the time degradation of quantum information stored in a quantum memory device under a dissipative environment is investigated. The results show that, under certain parameters, the original information can be retrieved without degradation.
We study the time degradation of quantum information stored in a quantum memory device under a dissipative environment in a parameter range which is experimentally relevant. The quantum memory under consideration is comprised of an optomechanical system with additional Kerr nonlinearity in the optical mode and an anharmonic mechanical oscillator with quadratic nonlinearity. Time degradation is monitored, both in terms of loss of coherence, which is analyzed with the help of Wigner functions, as well as in terms of loss of amplitude of the original state, studied as a function of time. While our time trajectories explore the degree to which the stored information degrades depending upon the variation in values of various parameters involved, we suggest a set of parameters for which the original information can be retrieved without degradation. We identify a very interesting situation where the role played by the nonlinearity is insignificant, and the system behaves as if the information is stored in a linear medium. For this case, the information retrieval is independent of the coherence revival time and can be retrieved at any instant during the time evolution.
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