Implementing optical quantum memory in a TM3+:Y3AL5O12 crystal waveguide

Alexander Pavlov, Mansur Minnegaliev, Konstantin Gerasimov, Ravil Urmancheev, Timur Rupasov, Evgeny Moiseev, Kalinkin Alexander, Kulik Serghei, Sergey Moiseev
January 2022
Cite DOI URL

Abstract

The paper presents an optical quantum memory protocol implemented in a Tm3+:Y3Al5O12 crystal single-mode waveguide, which is relevant for creating an integrated quantum memory in crystals doped with rare-earth ions.

Type
Conference paper
Publication
Microelectronics 2021
Alexander Pavlov
Alexander Pavlov
Research assistant

My research interests include nanophotonics and rare earth ions.

Mansur Minnegaliev
Mansur Minnegaliev
Researcher

My research interests include quantum memories and rare earth ions.

Konstantin Gerasimov
Konstantin Gerasimov
Researcher

My research interests include High Resolution Spectroscopy, Quantum Memories and Rare Earth ions.

Ravil Urmancheev
Ravil Urmancheev
Researcher

My research interests include area theorem and rare earth ions.

Timur Rupasov
Timur Rupasov
Phd Student

My research interests include nanophotonics and integrated optics.

Evgeny Moiseev
Evgeny Moiseev
Researcher

My research interests include quantum networks, light storage, light-matter interaction. At spare time, I enjoy electronics, free and open source software.

Sergey Moiseev
Sergey Moiseev
Professor

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