Coherent photoelectrical readout of single spins in silicon carbide at room temperature

被引:0
|
作者
Tetsuri Nishikawa [1 ]
Naoya Morioka [1 ]
Hiroshi Abe [2 ]
Koichi Murata [3 ]
Kazuki Okajima [4 ]
Takeshi Ohshima [1 ]
Hidekazu Tsuchida [3 ]
Norikazu Mizuochi [5 ]
机构
[1] Kyoto University,Institute for Chemical Research
[2] Kyoto University,Center for Spintronics Research Network, Institute for Chemical Research
[3] National Institutes for Quantum Science and Technology (QST),Department of Materials Science
[4] Central Research Institute of Electric Power Industry,International Center for Quantum
[5] Tohoku University,field Measurement Systems for Studies of the Universe and Particles (QUP)
[6] KEK,undefined
来源
Nature Communications | / 16卷 / 1期
关键词
D O I
10.1038/s41467-025-58629-1
中图分类号
学科分类号
摘要
Establishing a robust and integratable quantum system capable of sensitive qubit readout at ambient conditions is a key challenge for developing prevalent quantum technologies, including quantum networks and quantum sensing. Paramagnetic colour centres in wide bandgap semiconductors provide optical single-spin detection, yet realising efficient electrical readout technology in scalable material will unchain developing integrated ambient quantum electronics. Here, we demonstrate photoelectrical detection of single spins in silicon carbide, a material amenable to large-scale processing and electronic integration. With efficient photocarrier collection, we achieve a 1.7–2 times better signal-to-noise ratio for single spins of silicon vacancies with electrical detection than with optical detection suffering from saturating fluorescence and internal reflection. Based on our photoionisation dynamics study, further improvement would be expected with enhanced ionisation. We also observe single-defect-like features in the photocurrent image where photoluminescence is absent in the spectrum range of silicon vacancies. The efficient electrical readout in the mature material platform holds promise for developing integrated quantum devices.
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