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Hauptverfasser: Morioka, Naoya, Nishikawa, Tetsuri, Abe, Hiroshi, Ohshima, Takeshi, Mizuochi, Norikazu
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2512.05283
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author Morioka, Naoya
Nishikawa, Tetsuri
Abe, Hiroshi
Ohshima, Takeshi
Mizuochi, Norikazu
author_facet Morioka, Naoya
Nishikawa, Tetsuri
Abe, Hiroshi
Ohshima, Takeshi
Mizuochi, Norikazu
contents Photoelectrical detection of magnetic resonance (PDMR) offers a scalable alternative to optical readout of spin defects in semiconductors and is particularly promising for near-infrared (NIR) emitters, where photodetection is often challenging. Here, we demonstrate room-temperature coherent PDMR of PL3 (divacancy), PL5, PL6, and PL7 spins. PL7 and PL5 exhibit notably stronger PDMR than PL6 as opposed to optical detection, indicating higher ionization efficiency and suitability for electrical readout. Rabi oscillation and two-frequency spectroscopy reveal a previously undiscovered secondary resonance of PL7. We determine the zero-field splitting parameters of PL7 and assign the recently reported PL3a defect to PL7. The demonstrated PDMR of these NIR defects constitutes a key advancement toward quantum electronic devices. Also, the clarified spin parameters and ionization characteristics provide a solid foundation for advancing quantum technologies utilizing these defects regardless of the detection schemes.
format Preprint
id arxiv_https___arxiv_org_abs_2512_05283
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Photoelectrical detection and characterization of divacancy and PL5-PL7 spins in silicon carbide
Morioka, Naoya
Nishikawa, Tetsuri
Abe, Hiroshi
Ohshima, Takeshi
Mizuochi, Norikazu
Quantum Physics
Mesoscale and Nanoscale Physics
Photoelectrical detection of magnetic resonance (PDMR) offers a scalable alternative to optical readout of spin defects in semiconductors and is particularly promising for near-infrared (NIR) emitters, where photodetection is often challenging. Here, we demonstrate room-temperature coherent PDMR of PL3 (divacancy), PL5, PL6, and PL7 spins. PL7 and PL5 exhibit notably stronger PDMR than PL6 as opposed to optical detection, indicating higher ionization efficiency and suitability for electrical readout. Rabi oscillation and two-frequency spectroscopy reveal a previously undiscovered secondary resonance of PL7. We determine the zero-field splitting parameters of PL7 and assign the recently reported PL3a defect to PL7. The demonstrated PDMR of these NIR defects constitutes a key advancement toward quantum electronic devices. Also, the clarified spin parameters and ionization characteristics provide a solid foundation for advancing quantum technologies utilizing these defects regardless of the detection schemes.
title Photoelectrical detection and characterization of divacancy and PL5-PL7 spins in silicon carbide
topic Quantum Physics
Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2512.05283