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Bibliographic Details
Main Authors: Li, Minghao, Zuber, Josh A., Obramenko, Marina, Tognina, Patrik, Corazza, Andrea, Batzer, Marietta, Puigibert, Marcel. li Grimau, Happacher, Jodok, Maletinsky, Patrick
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.20714
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author Li, Minghao
Zuber, Josh A.
Obramenko, Marina
Tognina, Patrik
Corazza, Andrea
Batzer, Marietta
Puigibert, Marcel. li Grimau
Happacher, Jodok
Maletinsky, Patrick
author_facet Li, Minghao
Zuber, Josh A.
Obramenko, Marina
Tognina, Patrik
Corazza, Andrea
Batzer, Marietta
Puigibert, Marcel. li Grimau
Happacher, Jodok
Maletinsky, Patrick
contents Color center spins in diamond nanostructures are a key resource for emerging quantum technologies. Their innate surface proximity makes precise control of diamond surface chemistry essential for optimizing their functionality and charge states. However, conventional surface functionalization methods typically lack the tunability and efficiency required for robust charge-state control. Here, we introduce a deterministic, nonvolatile technique for continuously and efficiently tuning diamond's surface termination via laser-induced oxidation of H-terminated diamond nanopillars. By tracking SiV$^-$ photoluminescence as a charge-state proxy, we uncover the microscopic mechanism of this photocatalytic process through a systematic photon-flux and -energy analysis, where we identify charge-cycling of native defects as sources of optically generated holes driving the desired surface oxidation. Our results suggest that our method applies broadly to other color centers and host materials, offering a versatile tool for on-demand charge-state control and surface engineering in solid-state quantum devices.
format Preprint
id arxiv_https___arxiv_org_abs_2506_20714
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Photocatalytic Control of Diamond Color Center Charge States via Surface Oxidation
Li, Minghao
Zuber, Josh A.
Obramenko, Marina
Tognina, Patrik
Corazza, Andrea
Batzer, Marietta
Puigibert, Marcel. li Grimau
Happacher, Jodok
Maletinsky, Patrick
Quantum Physics
Mesoscale and Nanoscale Physics
Color center spins in diamond nanostructures are a key resource for emerging quantum technologies. Their innate surface proximity makes precise control of diamond surface chemistry essential for optimizing their functionality and charge states. However, conventional surface functionalization methods typically lack the tunability and efficiency required for robust charge-state control. Here, we introduce a deterministic, nonvolatile technique for continuously and efficiently tuning diamond's surface termination via laser-induced oxidation of H-terminated diamond nanopillars. By tracking SiV$^-$ photoluminescence as a charge-state proxy, we uncover the microscopic mechanism of this photocatalytic process through a systematic photon-flux and -energy analysis, where we identify charge-cycling of native defects as sources of optically generated holes driving the desired surface oxidation. Our results suggest that our method applies broadly to other color centers and host materials, offering a versatile tool for on-demand charge-state control and surface engineering in solid-state quantum devices.
title Photocatalytic Control of Diamond Color Center Charge States via Surface Oxidation
topic Quantum Physics
Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2506.20714