Multiresonator quantum memory with atomic ensembles
S.A.Moiseev
TL;DR
This paper develops a theoretical framework for multiresonator quantum memory using atomic ensembles, analyzing its physical properties and optimal conditions for implementation in integrated optical systems.
Contribution
It introduces a new theoretical model for multiresonator quantum memory with atomic ensembles and discusses its advantages and experimental feasibility.
Findings
Analytical solutions for the quantum memory are derived.
Optimal conditions for implementation are identified.
Advantages over existing quantum memory schemes are discussed.
Abstract
The theory of multiresonator quantum memory with atomic ensembles has been developed. Using the obtained analytical solutions, the basic physical properties of such memory are analyzed and optimal conditions for its implementation are determined. Advantages of this quantum memory and its experimental implementation in integrated optical schemes are discussed.
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Taxonomy
TopicsQuantum optics and atomic interactions