Multiresonator Quantum Memory with Switcher

Abstract

A scheme of multiresonator quantum memory based on a system of four interacting resonators connected through a common resonator to an external carrier by means of switchable coupling has been studied. The parameters of the resonators and the frequency spectrum of the system under study have been optimized using algebraic methods. It has been shown that these parameters allow efficient controlled reversible transfer of information into quantum memory with arbitrarily long storage. Possible applications of the developed scheme for quantum processing have been discussed.

Publication
JETP Letters
Sergey Moiseev
Sergey Moiseev
Professor

My research interests include quantum memories, Light-matter interaction, quantum information processing

Nikolay Perminov
Nikolay Perminov
Researcher

My research interests include integrated photonics.