Pure spin squeezing of h-BN spins coupled to superconducting resonator
The negatively charged boron vacancy (VB-) spin defect in two-dimensional (2D) hexagonal boron nitride (h-BN) has attracted much attention for potential applications in quantum photonics recently. Its inherent van der Waals force mechanism guarantees convenient heterostructures for quantum sensing....
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sg-ntu-dr.10356-1698982023-08-14T15:34:45Z Pure spin squeezing of h-BN spins coupled to superconducting resonator Qiao, Yi-Fan Chen, Jia-Qiang Zhou, Yuan Li, Peng-Bo Gao, Weibo School of Physical and Mathematical Sciences Science::Physics Coupling Strengths Magnetic Dipolar Interactions The negatively charged boron vacancy (VB-) spin defect in two-dimensional (2D) hexagonal boron nitride (h-BN) has attracted much attention for potential applications in quantum photonics recently. Its inherent van der Waals force mechanism guarantees convenient heterostructures for quantum sensing. By virtue of such materials, researchers not only can fabricate enough thin spin film naturally close to the sensing target but also can prepare an almost perfect spin ensemble with a uniform orientation. We here propose a setup with an ensemble of VB- spins strongly coupled to the superconducting coplanar waveguide resonator through the magnetic-dipolar interaction. The collective coupling strength is predicted to be G/2π∼15 MHz, which corresponds to the strong coupling region. This collective spin-photon interaction can mimic the one-axis twisting Lipkin-Meshkov-Glick model effectively and therefore guarantee the dynamic generation of the spin-squeezed state. In addition, we show the influence of inhomogeneous coupling caused by sample thickness on squeezing, which proves the validity of the homogeneity assumption in our scheme. This attempt not only explores the possibility and superiority of 2D VB- spins but also opens another avenue for quantum hybridization. Agency for Science, Technology and Research (A*STAR) National Research Foundation (NRF) Published version This work is supported by the National Natural Science Foundation of China (Grant No. 92065105), the Natural Science Basic Research Program of Shaanxi (Program No. 2020JC-02), the National Research Foundation, Singapore, and A*STAR under its Quantum Engineering Programme (Grants No. NRF2021-QEP2-03-P01, No. NRF2021-QEP2- 03-P10, and No. NRF2021-QEP2-01-P01). Y.Z. is supported by the Natural Science Foundation of Hubei Province (Grant No. 2020CFB748) and the Natural Science Foundation of Shandong Province (Grants No. ZR2021MA042 and No. ZR2021MA078). 2023-08-14T02:27:21Z 2023-08-14T02:27:21Z 2023 Journal Article Qiao, Y., Chen, J., Zhou, Y., Li, P. & Gao, W. (2023). Pure spin squeezing of h-BN spins coupled to superconducting resonator. Physical Review B, 107(19), 195425-1-195425-9. https://dx.doi.org/10.1103/PhysRevB.107.195425 1098-0121 https://hdl.handle.net/10356/169898 10.1103/PhysRevB.107.195425 2-s2.0-85161181444 19 107 195425-1 195425-9 en NRF2021-QEP2-03-P01 NRF2021-QEP2-03-P10 NRF2021-QEP2-01-P01 Physical Review B © 2023 American Physical Society. All rights reserved. This paper was published in Physical Review B and is made available with permission of American Physical Society. application/pdf |
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Science::Physics Coupling Strengths Magnetic Dipolar Interactions Qiao, Yi-Fan Chen, Jia-Qiang Zhou, Yuan Li, Peng-Bo Gao, Weibo Pure spin squeezing of h-BN spins coupled to superconducting resonator |
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The negatively charged boron vacancy (VB-) spin defect in two-dimensional (2D) hexagonal boron nitride (h-BN) has attracted much attention for potential applications in quantum photonics recently. Its inherent van der Waals force mechanism guarantees convenient heterostructures for quantum sensing. By virtue of such materials, researchers not only can fabricate enough thin spin film naturally close to the sensing target but also can prepare an almost perfect spin ensemble with a uniform orientation. We here propose a setup with an ensemble of VB- spins strongly coupled to the superconducting coplanar waveguide resonator through the magnetic-dipolar interaction. The collective coupling strength is predicted to be G/2π∼15 MHz, which corresponds to the strong coupling region. This collective spin-photon interaction can mimic the one-axis twisting Lipkin-Meshkov-Glick model effectively and therefore guarantee the dynamic generation of the spin-squeezed state. In addition, we show the influence of inhomogeneous coupling caused by sample thickness on squeezing, which proves the validity of the homogeneity assumption in our scheme. This attempt not only explores the possibility and superiority of 2D VB- spins but also opens another avenue for quantum hybridization. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Qiao, Yi-Fan Chen, Jia-Qiang Zhou, Yuan Li, Peng-Bo Gao, Weibo |
| format |
Article |
| author |
Qiao, Yi-Fan Chen, Jia-Qiang Zhou, Yuan Li, Peng-Bo Gao, Weibo |
| author_sort |
Qiao, Yi-Fan |
| title |
Pure spin squeezing of h-BN spins coupled to superconducting resonator |
| title_short |
Pure spin squeezing of h-BN spins coupled to superconducting resonator |
| title_full |
Pure spin squeezing of h-BN spins coupled to superconducting resonator |
| title_fullStr |
Pure spin squeezing of h-BN spins coupled to superconducting resonator |
| title_full_unstemmed |
Pure spin squeezing of h-BN spins coupled to superconducting resonator |
| title_sort |
pure spin squeezing of h-bn spins coupled to superconducting resonator |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169898 |
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1779156287278284800 |