High-coherence integrated nanophotonic multi-spin-photon interface based on silicon vacancies in silicon carbide

Florian Kaiser; Charles Babin; Rainer Stöhr; Naoya Morioka; Tobias Linkewitz; Timo Steidl; Raphael Wörnle; Di Liu; Erik Hesselmeier; Vadim Vorobyov; Andrej Denisenko; Mario Hentschel; Christian Gobert; Patrick Berwian; Georgy V Astakhov; Wolfgang Knolle; Sridhar Majety; Pranta Saha; Marina Radulaski; Nguyen Tien Son; Jawad Ul Hassan; J. Wrachtrup

High-coherence integrated nanophotonic multi-spin-photon interface based on silicon vacancies in silicon carbide

ORAL

Abstract

Optically active solid-state spins showed multi-node quantum networks, quantum error correction and entanglement distillation.

To claim system scalability, the field has yet to improve the interaction between color centers and photons. While cavity-enhanced light-matter interaction was implemented on multiple platforms, the major challenge is to preserve spin-optical coherence and, simultaneously, grant high-fidelity access to qubit clusters, such as nuclear spins.

Here, we highlight that color centers in semiconductor silicon carbide (SiC) are a promising platform to solve these challenges.

We introduce nanofabrication of silicon vacancy centers (V_Si) in 4H-SiC without deterioration of their excellent spin-optical properties. We show nearly lifetime limited optical absorption lines and record spin coherence times for single defects generated via ion implantation and in SiC waveguides.

Thanks to our system’s exceptionally high operation temperature (T = 20 K), we further use waveguide-integrated V_Si centers to control two nearby nuclear spin qubits with fidelities up to 98%.

Our work shows that V_Si centers in SiC are very attractive for developing next-generation large-scale quantum networks based on integrated quantum computational clusters with efficient spin-photon interfaces.

March 15, 2022, 5:24 PM – March 15, 2022, 5:36 PM

Publication: arXiv:2109.04737 (2021), accepted in Nature Materials

Presenters

Florian Kaiser

University of Stuttgart

Authors

Florian Kaiser

University of Stuttgart
Charles Babin

University of Stuttgart
Rainer Stöhr

University of Stuttgart
Naoya Morioka

University of Stuttgart
Tobias Linkewitz

University of Stuttgart
Timo Steidl

University of Stuttgart
Raphael Wörnle

University of Stuttgart
Di Liu

University of Stuttgart
Erik Hesselmeier

University of Stuttgart
Vadim Vorobyov

University of Stuttgart
Andrej Denisenko

University of Stuttgart
Mario Hentschel

University of Stuttgart
Christian Gobert

IISB Erlangen
Patrick Berwian

IISB Erlangen
Georgy V Astakhov

HZDR Dresden
Wolfgang Knolle

IOM Leipzig
Sridhar Majety

University of California, Davis
Pranta Saha

University of California, Davis
Marina Radulaski

University of California, Davis
Nguyen Tien Son

Linköping University
Jawad Ul Hassan

Linkoping University, Linköping University
J. Wrachtrup

University of Stuttgart