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申恒，教授、博导，国家高层次青年人才、牛顿学者、国家重点研发计划青年项目负责人。本科毕业于南开大学与天津大学合办光电子技术科学专业。2015年在丹麦哥本哈根大学尼尔斯玻尔研究所获得博士学位（PhD thesis: Spin squeezing and entanglement with room temperature atoms for quantum sensing and communication， 导师：Eugene S. Polzik）。之后在奥地利因斯布鲁克国家科学院量子信息与量子光学中心Rainer Blatt研究组从事基于离子阵列的量子模拟与计算实验博士后研究，并于2017年获得英国皇家学会牛顿国际基金支持在英国牛津大学物理系独立从事光力原子混合系统的研究。以通信作者或第一作者在国际著名刊物发表多篇论文，包括Nature、Nature Physics、Nature Communications及Phys. Rev. Lett.等。研究方向包括基于离子阱及中性原子体系的量子模拟与计算、基于原子自旋压缩态及固态自旋体系的量子精密测量等。担任《红外与激光工程》杂志青年编委。主讲本科生《光学系统CAD》与《量子力学（英文）》，以及研究生《高等原子物理》课程。

主持项目：

1. 国家重点研发计划-基于自旋体系量子增强磁力计的研究 （2020YFA0309400） 2020.12-2025.11 （472万）

2. 山西省重大科技专项-大规模离子阱量子计算的关键技术研究（2021011501025） 2022.1-2026.12 （1000万）

3. 英国皇家学会Newton International Fellowship Alumni follow-on funding （AL201024） 2020.7-2022.6

已发表论文：

共同第一作者标注#号，通讯作者（包括共同通讯）*号标注

1. Spin squeezing of 10¹¹ atoms by prediction and retrodiction measurements, Han Bao, Junlei Duan, Shenchao Jin, Xingda Lu, Pengxiong Li, Weizhi Qu, Mingfeng Wang, Irina Novikova, Eugeniy E. Mikhailov, Kai-Feng Zhao, Klaus Mølmer*, Heng Shen*, and Yanhong Xiao*, Nature 581, 159-163 (2020).

2. Nonreciprocity and Quantum Correlations of Light Transport in Hot Atoms vis Reservoir Engineering, Xingda Lu, Wanxia Cao, Wei Yi, Heng Shen*, and Yanhong Xiao*, Phys. Rev. Lett. 126, 223603 (2021).

3. Retrodiction beyond the Heisenberg uncertainty relation, Han Bao, Shenchao Jin, Junlei Duan, Suotang Jia, Klaus Mølmer*, Heng Shen*, and Yanhong Xiao*, Nature Commnunications 11, 5658 (2020).

4. Reservoir-Mediated Quantum Correlations in Non-Hermitian Optical System, Wanxia Cao, Xingda Lu, Xin Meng, Jian Sun, Heng Shen*, and Yanhong Xiao*, Phys. Rev. Lett. 124, 030401 (2020).

5. Spatial Multiplexing of Squeezed Light by Coherence Diffusion, J. Sun, X. Zhang, W. Qu, E. E. Mikhailov, I. Novikova, H. Shen*, Y. Xiao*, Phys. Rev. Lett. 123, 203604 (2019).

6. Magnetostrictively Induced Stationary Entanglement between Two Microwave Fields, Mei Yu, Heng Shen and Jie Li, Phys. Rev. Lett. 124, 213604 (2020).

7. Generation of a squeezed state of an oscillator by stroboscopic back-action-evading measurement, Georgios Vasilakis^#, Heng Shen^#, Kasper Jensen, Misha Balabas, Daniel Salart, Bing Chen, Eugene Simon Polzik, Nature Physics, 11, 389-492 (2015). 

8. Deterministic quantum teleportation between distant atomic objects, H. Krauter, D. Salart, C. A. Muschik, J. M. Petersen, Heng Shen, T. Fernholz, E. S. Polzik, Nature Physics 9, 400-404 (2013).

9. Direct Observation of Dynamical Quantum Phase Transitions in an Interacting Many-Body System, P. Jurcevic, H. Shen, P. Hauke, C. Maier, T. Brydges, B. P. Lanyon, M. Heyl, R. Blatt, and C. F. Roos , Phys. Rev. Lett. 119, 080501 (2017). Web of Science高被引文章

10. Quantum state tomography of a single electron spin in diamond with Wigner function reconstruction. B. Chen, J. Geng, F. Zhou, L. Song, H. Shen*, N. Xu*, Appl. Phys. Lett. 114, 041102 (2019).

11. Detecting the out-of-time-order correlations of dynamical quantum phase transitions in a solid-state quantum simulator. Bing. Chen, Xianfei Hou, Feifei Zhou, Peng Qian, Heng Shen*, and Nanyang Xu*, Appl. Phys. Lett. 116, 194002 (2020).

12. Digital quantum simulation of Floquet topological phases with a solid-state quantum simulator. Bing. Chen, Shuo Li, Xianfei Hou, Feifei Zhou, Feifei Ge, Peng Qian, Feng Mei*, Suotang Jia, Nanyang Xu*, and Heng Shen*, Photonics Research 9, 81-87 (2021).

13. Adiabaticity in state preparation for spin squeezing of large atom ensembles. Shenchao Jin, Han Bao, Junlei Duan, Mingfeng Wang, Kai-Feng Zhao, Heng Shen*and Yanhong Xiao*, Photonics Research 9, 11002318 (2021).

14. Spontaneous phase locking of mechanical multimodes in anti-parity-time optomechanics. Bing Chen, Yanqiang Guo, Heng Shen*. Optics Express 28, 28762 (2020).

15. Quantum communication network utilizing quadripartite entangled states of optical field, Heng Shen, Xiaolong Su, Xiaojun Jia and Changde Xie, Phys. Rev. A 80, 042320 (2009).

16. Experimental generation of 6 dB continuous variable entanglement from a nondegenerate optical parametric amplifier, Yu Wang, Heng Shen, Xiaoli Jin, Xiaolong Su, Changde Xie, and Kunchi Peng, Opt. Exp. 18, 6149 (2010).

17. Toward demonstrating controlled-X operation based on continuous-variable four-partite cluster states and quantum teleporters, Yu Wang, Xiaolong Su, Heng Shen, Aihong Tan, Changde Xie, and Kunchi Peng, Phys. Rev. A 81, 022311 (2010).

18. Controlled-X gate with cache function for one-way quantum computation, Heng Shen, Kenan Qu, Weigang Zhang, Jing Jin, Phys. Rev. A 85, 032317 (2012).

19. Scalable photonic network architecture based on motional averaging in room temperature gas, J. Borregaard, M. Zugenmaier, J.M. Petersen, H. Shen, G. Vasilakis, K. Jensen, E.S. Polzik and A. S. Sorensen, Nature Communications, 7, 11356 (2016).

20.  In-line polarization rotator based on the quantum-optical analogy, L. Chen, K. Qu, H. Shen, W. Zhang, K. Chou, Q. Liu, T. Yan, B. Wang, and S. Wang, Opt. Lett.41, 2113 (2016).

21.  Enhancing squeezing and nonclassicality of light in atom-optomenchanical systems, Y. Guo, X. Guo, P. Li, H. Shen, J. Zhang, and T. Zhang, Ann. der. Phys. 41, 1800138 (2018).

22. Quantum chemistry calculations on a trapped-ion quantum simulator, C. Hempel, C. Maier, J. Romero, J. McClean, T. Monz, H. Shen, P. Jurcevic, B. P. Lanyon, P. Love, R. Babbush, Alán Aspuru-Guzik, R. Blatt, and C. F. Roos, Phys. Rev. X 8, 031022 (2018). Web of Science高被引文章