English

Electrical readout microwave-free sensing with diamond

Applied Physics 2024-04-23 v1 Quantum Physics

Abstract

While nitrogen-vacancy (NV-) centers have been extensively investigated in the context of spin-based quantum technologies, the spin-state readout is conventionally performed optically, which may limit miniaturization and scalability. Here, we report photoelectric readout of ground-state cross-relaxation features, which serves as a method for measuring electron spin resonance spectra of nanoscale electronic environments and also for microwave-free sensing. As a proof of concept, by systematically tuning NV centers into resonance with the target electronic system, we extracted the spectra for the P1 electronic spin bath in diamond. Such detection may enable probing optically inactive defects and the dynamics of local spin environment. We also demonstrate a magnetometer based on photoelectric detection of the ground-state level anticrossings (GSLAC), which exhibits a favorable detection efficiency as well as magnetic sensitivity. This approach may offer potential solutions for determining spin densities and characterizing local environment.

Keywords

Cite

@article{arxiv.2201.01801,
  title  = {Electrical readout microwave-free sensing with diamond},
  author = {Huijie Zheng and Jaroslav Hruby and Emilie Bourgeois and Josef Soucek and Petr Siyushev and Fedor Jelezko and Arne Wickenbrock and Milos Nesladek and Dmitry Budker},
  journal= {arXiv preprint arXiv:2201.01801},
  year   = {2024}
}
R2 v1 2026-06-24T08:41:19.726Z