Cavity-Enhanced Photon Emission from a Single Germanium-Vacancy Center in a Diamond Membrane

Erika Janitz; Rasmus Hoey Jensen; Yannik Fontana; Yi He; Olivier Gobron; Ilya P. Radko; Mihir Bhaskar; Ruffin Evans; Cesar Daniel Rodriguez Rosenblueth; Alexander Huck; Ulrik Lund Andersen; Lilian Childress

Cavity-Enhanced Photon Emission from a Single Germanium-Vacancy Center in a Diamond Membrane

ORAL

Abstract

The nitrogen-vacancy (NV) center in diamond has been explored extensively as a light-matter interface for quantum information applications, however it is limited by low coherent photon emission and spectral instability. Alternatively, group-IV diamond defects such as the germanium-vacancy (GeV) center have gained attention for their superior optical properties. Inspired by this, we explore an interface based on a single GeV in a diamond membrane coupled to a finesse 11,000 fiber cavity, obtaining a 30-fold enhancement in the spectral density of emission. This work sets the stage for cryogenic experiments, where we predict a factor of 20 increase in the spontaneous emission rate.

June 4, 2020, 11:54 AM – June 4, 2020, 12:06 PM

Authors

Erika Janitz
- McGill University
Rasmus Hoey Jensen
- Technical University of Denmark
Yannik Fontana
- Technical University of Denmark
Yi He
- Carnegie Mellon University
Olivier Gobron
- Technical University of Denmark
Ilya P. Radko
- Technical University of Denmark
Mihir Bhaskar
- Harvard University
Ruffin Evans
- Harvard University
Cesar Daniel Rodriguez Rosenblueth
- McGill University
Alexander Huck
- Technical University of Denmark
Ulrik Lund Andersen
- Technical University of Denmark
Lilian Childress
- McGill University