# Optimal conditions and the dynamics of quantum memory for spatial   frequency grating resonators

**Authors:** N. S. Perminov, K. V. Petrovnin, R. S. Kirillov, R. R. Latypov, S. A., Moiseev, and O. N. Sherstyukov

arXiv: 1705.10315 · 2018-05-14

## 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.

## Key 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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Source: https://tomesphere.com/paper/1705.10315