Large-Range Optical Resonant Frequency Tuning and Stabilization of Diamond Tin-Vacancy Centers

Julia M. Brevoord; Leonardo G.C. Wienhoven; Nina Codreanu; Elvis van Leeuwen; Mariagrazia Iuliano; Lorenzo De Santis; Christopher Waas; Hans K.C. Beukers; Tim Turan; Carlos Errando-Herranz; Kenichi Kawaguchi; Ronald Hanson

Large-Range Optical Resonant Frequency Tuning and Stabilization of Diamond Tin-Vacancy Centers

Julia M. Brevoord^*, Leonardo G.C. Wienhoven, Nina Codreanu, Elvis van Leeuwen, Mariagrazia Iuliano, Lorenzo De Santis, Christopher Waas, Hans K.C. Beukers, Tim Turan, Carlos Errando-Herranz, Kenichi Kawaguchi, Ronald Hanson

^*Corresponding author for this work

Research output: Working paper/Preprint › Preprint

Abstract

We demonstrate large-range tuning of the optical transition of Tin-Vacancies (SnV) in diamond using electro-mechanical-induced strain, realizing >40 GHz tuning. We employ real-time feedback on the strain environment to stabilize the resonant frequency.

Original language	English
Publisher	Optical Society of America (OSA)
ISBN (Electronic)	9781957171487
Publication status	Published - 2025

Publication series

Name	Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition

Cite this

Brevoord, J. M., Wienhoven, L. G. C., Codreanu, N., van Leeuwen, E., Iuliano, M., De Santis, L., Waas, C., Beukers, H. K. C., Turan, T., Errando-Herranz, C., Kawaguchi, K., & Hanson, R. (2025). Large-Range Optical Resonant Frequency Tuning and Stabilization of Diamond Tin-Vacancy Centers. (Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition). Optical Society of America (OSA).

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abstract = "We demonstrate large-range tuning of the optical transition of Tin-Vacancies (SnV) in diamond using electro-mechanical-induced strain, realizing >40 GHz tuning. We employ real-time feedback on the strain environment to stabilize the resonant frequency.",

author = "Brevoord, {Julia M.} and Wienhoven, {Leonardo G.C.} and Nina Codreanu and {van Leeuwen}, Elvis and Mariagrazia Iuliano and {De Santis}, Lorenzo and Christopher Waas and Beukers, {Hans K.C.} and Tim Turan and Carlos Errando-Herranz and Kenichi Kawaguchi and Ronald Hanson",

year = "2025",

language = "English",

series = "Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition",

publisher = "Optical Society of America (OSA)",

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Brevoord, JM, Wienhoven, LGC, Codreanu, N, van Leeuwen, E, Iuliano, M, De Santis, L, Waas, C , Beukers, HKC , Turan, T , Errando-Herranz, C , Kawaguchi, K & Hanson, R 2025 'Large-Range Optical Resonant Frequency Tuning and Stabilization of Diamond Tin-Vacancy Centers' Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition, Optical Society of America (OSA).

TY - UNPB

T1 - Large-Range Optical Resonant Frequency Tuning and Stabilization of Diamond Tin-Vacancy Centers

AU - Brevoord, Julia M.

AU - Wienhoven, Leonardo G.C.

AU - Codreanu, Nina

AU - van Leeuwen, Elvis

AU - Iuliano, Mariagrazia

AU - De Santis, Lorenzo

AU - Waas, Christopher

AU - Beukers, Hans K.C.

AU - Turan, Tim

AU - Errando-Herranz, Carlos

AU - Kawaguchi, Kenichi

AU - Hanson, Ronald

PY - 2025

Y1 - 2025

N2 - We demonstrate large-range tuning of the optical transition of Tin-Vacancies (SnV) in diamond using electro-mechanical-induced strain, realizing >40 GHz tuning. We employ real-time feedback on the strain environment to stabilize the resonant frequency.

AB - We demonstrate large-range tuning of the optical transition of Tin-Vacancies (SnV) in diamond using electro-mechanical-induced strain, realizing >40 GHz tuning. We employ real-time feedback on the strain environment to stabilize the resonant frequency.

UR - http://www.scopus.com/inward/record.url?scp=105013077156&partnerID=8YFLogxK

M3 - Preprint

AN - SCOPUS:105013077156

T3 - Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition

BT - Large-Range Optical Resonant Frequency Tuning and Stabilization of Diamond Tin-Vacancy Centers

PB - Optical Society of America (OSA)

ER -

Large-Range Optical Resonant Frequency Tuning and Stabilization of Diamond Tin-Vacancy Centers

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