Spin-photon interfaces Enabled by Group-IV Vacancy Centers in Diamond and Single Rubidium Atoms

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doi:10.4233/uuid:95b2e2c6-59bf-49de-bd52-e4e3b52d00f9

Spin-photon interfaces Enabled by Group-IV Vacancy Centers in Diamond and Single Rubidium Atoms

Doctoral Thesis (2026)

Author(s)

F. Gu (TU Delft - QID/Hanson Lab)

Contributor(s)

R. Hanson – Promotor (TU Delft - QID/Hanson Lab, TU Delft - QN/Hanson Lab)

V.V. Dobrovitski – Copromotor (TU Delft - QID/Dobrovitski Group)

Quantum communication Surface code Spin-Photon interface Modular quantum computation Trapped Rb atom Group-IV vacancy center

DOI related publication

https://doi.org/10.4233/uuid:95b2e2c6-59bf-49de-bd52-e4e3b52d00f9 Final published version

To reference this document use

https://doi.org/10.4233/uuid:95b2e2c6-59bf-49de-bd52-e4e3b52d00f9

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Publication Year

2026

Language

English

Defense Date

04-03-2026

Awarding Institution

ISBN (print)

978-94-6518-256-8

Downloads counter

104

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Abstract

Spin-photon interfaces play a crucial role in the realization of large-scale quantum computation and quantum communication. In this thesis, we investigate two types of spin-photon interfaces, Group-IV color centers in diamond and trapped Rubidium atoms, and evaluate their potential to enable long-distance quantum communication and modular quantum computation.

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