Superradiant Echoes Induced by Multiple Re-phasing of NV Spin Sub-ensembles Grating at Room Temperature
- URL: http://arxiv.org/abs/2507.01328v1
- Date: Wed, 02 Jul 2025 03:31:07 GMT
- Title: Superradiant Echoes Induced by Multiple Re-phasing of NV Spin Sub-ensembles Grating at Room Temperature
- Authors: Qilong Wu, Yuan Zhang, Huihui Yu, Chong-Xin Shan, Klaus Mølmer,
- Abstract summary: Superradiant echoes can be achieved at room temperature by applying a laser illumination and a microwave Hahn echo sequence to a diamond.<n>In the future, the spin sub-ensembles grating and the resulting echoes can be further optimized with dynamical decoupling.
- Score: 4.231283139452643
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: In this Letter, we propose that superradiant echoes can be achieved at room temperature by applying a laser illumination and a microwave Hahn echo sequence to a diamond with a high concentration of nitrogen-vacancy (NV) centers placed in a dielectric microwave cavity. We identify that the combined action of two microwave driving pulses and a free evolution imprints a phase grating among NV spin sub-ensembles in frequency space, and multiple re-phasing of the grated spin sub-ensembles leads to multiple superradiant echoes through a collective coupling with the cavity. Furthermore, we show that the superradiant echoes can be actively tailored with the microwave pulses and the laser illumination by modifying the grating parameters, and the multiple re-phasing dynamics is analogous to the one leading to superradiant beats in optical clock system. In the future, the spin sub-ensembles grating and the resulting echoes can be further optimized with dynamical decoupling, which might pave the way for applications in quantum sensing.
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