Optimal conditions and the dynamics of quantum memory for spatial frequency grating resonators
N. S. Perminov, K. V. Petrovnin, R. S. Kirillov, R. R. Latypov, S. A., Moiseev, and O. N. Sherstyukov

TL;DR
This paper investigates the dynamics of microcavity interactions in multiresonator quantum memory circuits, identifying optimal conditions and providing a dynamic energy exchange model.
Contribution
It introduces a detailed analysis of interaction dynamics and optimal conditions for quantum memory using spatial frequency grating resonators.
Findings
Identified optimal conditions for quantum memory operation.
Developed a dynamic model of energy exchange between microcavities.
Provided insights into the interaction mechanisms in multiresonator systems.
Abstract
The dynamics of the interaction between microcavities connected to a common waveguide in a multiresonator quantum memory circuit is investigated. Optimum conditions are identified for the use of quantum memory and a dynamic picture of the exchange of energy between different microcavities is obtained.
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Taxonomy
TopicsQuantum optics and atomic interactions · Photonic and Optical Devices · Mechanical and Optical Resonators
