Room-Temperature Hybrid 2D-3D Quantum Spin System for Enhanced Magnetic Sensing and Many-Body Dynamics
Room-Temperature Hybrid 2D-3D Quantum Spin System for Enhanced Magnetic Sensing and Many-Body Dynamics
Advances in hybrid quantum systems and their precise control are pivotal for developing advanced quantum technologies. Two-dimensional (2D) materials with optically accessible spin defects have emerged as a promising platform for building integrated quantum spin systems due to their exceptional flexibility and scalability. However, experimentally realizing such systems and demonstrating their superiority remains challenging. Here, we present a hybrid spin system operating under ambient conditions, integrating boron vacancy (VB) spins in 2D hexagonal boron nitride flakes with a single nitrogen vacancy (NV) center in 3D single-crystal diamonds. This combined system achieves full controllability and exhibits enhanced performance for nanoscale magnetic sensing, including an improved dynamic range. Moreover, we investigate the rich many-body spin dynamics within the hybrid system, enabling the first-time quantification of the fluorescence intensity of a single VB defect at 104 counts per second. This result represents a critical step toward the direct optical observation of single VB defects.
Ya Wang、Haoyu Sun、Pei Yu、Xu Zhou、Xiangyu Ye、Mengqi Wang、Zhaoxin Liu、Yuhang Guo、Wenzhao Liu、You Huang、Pengfei Wang、Fazhan Shi、Kangwei Xia
物理学
Ya Wang,Haoyu Sun,Pei Yu,Xu Zhou,Xiangyu Ye,Mengqi Wang,Zhaoxin Liu,Yuhang Guo,Wenzhao Liu,You Huang,Pengfei Wang,Fazhan Shi,Kangwei Xia.Room-Temperature Hybrid 2D-3D Quantum Spin System for Enhanced Magnetic Sensing and Many-Body Dynamics[EB/OL].(2025-04-14)[2025-05-06].https://arxiv.org/abs/2504.10815.点此复制
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