王鹏军

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王鹏军男,1982年生,山西阳城人。博士,教授。

“青年三晋学者”,“国家优秀青年基金获得者”。

主要从事超冷原子方面的研究和教学工作。

主持多项国家和省部级重点项目,以项目骨干身份参与国家级基础研究发展计划、

重点项目和重点研发计划。


学习工作经历:

2001年-2005年 山西大学山西大学物理系物理学专业,  获理学学士学位

2005年-2011年 山西大学光电研究所光学专业,  获理学博士学位

2012年-2013年 法国光学所Thomas Bourdel, Alain Aspect (法国科学院院士) 小组, 博士后


主持参加科研项目情况:

2015年- 2018年  主持承担“超冷费米气体40K中束缚分子的高分辨率能谱 ”,国家自然科学基金面上项目;

2020年-2023年  主持承担“超冷极性费米分子23Na40K的最低振转能级制备和量子态操控”,国家自然科学基金面上项目;

2021年-2023年  主持承担“超冷玻色费米混合气体”,国家自然科学基金优秀青年基金项目;

2025年-2028年  主持承担“微波屏蔽下超冷基态分子23Na40K碰撞实验研究”,国家自然科学基金面上项目;

2013年-2015年  参与“玻色—费米原子混合系综的量子调控”,国家自然科学基金重点项目;


论文发表:

44. Optimal preparation of Bose and Fermi atomic gas mixtures of 87Rb and 40K in a crossed optical dipole trap

Peibo Ding, Biao Shan, Yuhang Zhao, Yajing Yang, Liangchao Chen, Zengming Meng, Pengjun Wang, and Lianghui Huang,

Chin. Phys. B 33, 063402 (2024).


43. Collective excitation of Bose-Einstein condensate of 23Na via high-partial wave Feshbach resonance

Zhenlian Shi, Ziliang Li, Pengjun Wang, Wei Han, Lianghui Huang, Zengming Meng, Liangchao Chen and Jing Zhang,

New J. Phys. 25, 023032 (2023).


42.Quantum degenerate Bose-Fermi atomic gas mixture of 23Na and 40K

Ziliang Li, Zhengyu Gu, Zhenlian Shi, Pengjun Wang, and Jing Zhang,

Chin. Phys. B 32, 023701 (2023).  


41. Atomic Bose–Einstein condensate in twisted-bilayer optical lattices

Zengming Meng, Liangwei Wang, Wei Han, Fangde Liu, Kai Wen, Chao Gao, Pengjun Wang, Cheng Chin, and Jing Zhang,

Nature 615, 231 (2023).


40. Effect of Magnetic Field Spatial Distribution on Free Flight of Bose-Einstein Condensates under High Bias Magnetic Field

Xingyu Wang, Zhenlian Shi, Ziliang Li, Zhengyu Gu, Pengjun Wang and Jing Zhang,

Journal of Quantum Optics 28(1):8 –17, (2022).


39. Experimental realization of two-dimensional single-layer ultracold gases of 87Rb in an accordion lattice

Liangwei Wang, Kai Wen, Fangde Liu, Yunda Li, Pengjun Wang, Lianghui Huang, Liangchao Chen, Wei Han, Zengming Meng, and Jing Zhang,

Chin. Phys. B 31, 103401 (2022).


38. Realization of space-dependent interactions by an optically controlled magnetic p-wave Feshbach resonance in degenerate Fermi gases

Guoqi Bian, Lianghui Huang, Donghao Li, Zengming Meng, Liangchao Chen,Pengjun Wang, and Jing Zhang,

Physical Review A 106, 023322 (2022).


37. Achieving ultracold Bose–Fermi mixture of 87Rb and 40K with dual dark magnetic-optical-trap

Jie Miao, Guoqi Bian, Biao Shan, Liangchao Chen, Zengming Meng, Pengjun Wang, Lianghui Huang, and Jing Zhang,

Chin. Phys. B 31, 080306 (2022).


36. Photoassociation spectroscopy of weakly bound 87Rb2 molecules near the 5P1/2 + 5S1/2 threshold by optical Bragg scattering in Bose-Einstein condensates

Khan Sadiq Nawaz , Liangchao Chen, Chengdong Mi, Zengming Meng, Lianghui Huang, Pengjun Wang , and Jing Zhang,

Physical Review A 102, 053326 (2020).


35. Synthesized magnetic field of a sawtooth superradiance lattice in Bose–Einstein condensates

Pengjun Wang, Liangchao Chen, Chengdong Mi, Zengming Meng, Lianghui Huang, Khan Sadiq Nawaz, Han Cai3, Da-Wei Wang, Shi-Yao Zhu and Jing Zhang,

npj Quantum Information 6(18),(2020).


34. Observation of sub-wavelength phase structure of matter wave with two-dimensional optical lattice by Kapitza-Dirac diffraction

KaiWen, Zengming Meng, PengjunWang, LiangweiWang, LiangchaoChen, Lianghui Huang, LihongZhou, XiaolingCui & Jing Zhang,

Scientific Reports 10, 5870 (2020).


33.超冷 87Rb原子在二维光晶格中Mott绝缘态的实验实现

文凯  王良伟  周方  陈良超  王鹏军  孟增明  张靖,

物理学报 69(19), 193201 (2020).


32. Experimental investigation of the electromagnetically Induced-Absorption-Like effect for an N-Type energy level in a Rubidium BEC

Khan Sadiq Nawaz, Cheng-Dong Mi, Liang-Chao Chen, Peng-Jun Wang, Jing Zhang,

Chinese Physics Letters 36(4), 043201 (2019).


31. Universal feature in optical control of a p-wave Feshbach resonance

Peng Peng, Ren Zhang, Lianghui Huang, Donghao Li, Zengming Meng, Pengjun Wang, Hui Zhai, Peng Zhang, and Jing Zhang,

Physical Review A 97, 012702 (2018).


30. Observation of Floquet bands in driven spin-orbit-coupled Fermi gases

Lianghui Huang, Peng Peng, Donghao Li, Zengming Meng, Liangchao Chen, Chunlei Qu, Pengjun Wang, Chuanwei Zhang, and Jing Zhang,

Physical Review A 98, 013615 (2018).


29. 玻色爱因斯坦凝聚体中电磁诱导透明和电磁诱导吸收的研究

杨广玉, 陈良超, 米成栋, 王鹏军, 张靖,

量子光学学报 24(2), 156163 (2018).


28. Influence on the lifetime of 87Rb Bose–Einstein condensation for Far-Detuning Single-Frequency lasers with different phase noises

Peng Peng, Liang-hui Huang, Dong-hao Li, Peng-jun Wang, Zeng-ming Meng, Jing Zhang,

Chinese Physics Letters 35(6), 063201 (2018).  


27. Experimental observation of Spin-Exchange in ultracold Fermi gases

Peng Peng, Liang-Hui Huang, Dong-Hao Li, Zeng-Ming Meng,Peng-Jun Wang, Jing Zhang,

Chinese Physics Letters 35(3), 033401 (2018).


26. Experimental observation of a tpological band gap opening in ultracold Fermi gases with two-dimensional Spin-Orbit coupling

Zengming Meng, Lianghui Huang, Peng Peng, Donghao Li, Liangchao Chen, Yong Xu, Chuanwei Zhang, Pengjun Wang, and Jing Zhang,

Physical Review Letters 117, 235304 (2016).


25. Experimental realization of a two-dimensional synthetic spin-orbit coupling in ultracold Fermi gases

Lianghui Huang, Zengming Meng, Pengjun Wang, Peng Peng, Shao-Liang Zhang, Liangchao Chen, Donghao Li, Qi Zhou and Jing Zhang,

Nature Physics 12, 540-544 (2016).


24. 重力对 87Rb冷原子四极磁阱装载的影响

王亚琼, 陈良超, 王鹏军, 张靖,

量子光学报 22(1), 50-57 (2016).


23. Dissociation of Feshbach molecules via spin-orbit coupling in ultracold Fermi gases

Lianghui Huang, Pengjun Wang, Peng Peng, Zengming Meng, Liangchao Chen, Peng Zhang, and Jing Zhang,

Physical Review A 91, 041604(R) (2015).


22. Radio-frequency spectrum of the Feshbach molecular state to deeply bound molecular states in ultracold 40K Fermi gases

Lianghui Huang, Pengjun Wang, B P Ruzic, Zhengkun Fu, Zengming Meng, Peng Peng, J L Bohn and Jing Zhang,

New J. Phys. 17, 033013 (2015).


21. Production of Feshbach molecules induced by Spin-Orbit coupling in Fermi gases

Zhengkun Fu, Lianghui Huang, Zengming Meng, Pengjun Wang, Long Zhang, Shizhong Zhang, Hui Zhai, Peng Zhang and Jing Zhang,

Nature Physics 10, 110 (2014).


20. Optical control of a magnetic Feshbach resonance in ultracold Fermi gas

Zhengkun Fu, Pengjun Wang, Lianghui Huang, Zengming Meng, Hui Hu, and Jing Zhang,

Physical Review A 88, 041601 (2013).


19. Radio-frequency spectroscopy of a strongly interacting spin-orbit-coupled Fermi gas

Zhengkun Fu, Lianghui Huang, Zengming Meng, Pengjun Wang, Xia-Ji Liu, Han Pu, Hui Hu, and Jing Zhang,

Physical Review A 87, 053619 (2013).


18. Spin-Orbit coupled degenerate Fermi gases

Pengjun Wang, Zeng-Qiang Yu, Zhengkun Fu, Jiao Miao, Lianghui Huang, Shijie Chai, Hui Zhai, and Jing Zhang,

Physical Review Letters 109, 095301 (2012).


17. Momentum-resolved Raman spectroscopy of a noninteracting ultracold Fermi gas

Pengjun Wang, Zhengkun Fu, Lianghui Huang, and Jing Zhang,

Physical Review A 85, 053626 (2012).


16. Momentum-resolved Raman spectroscopy of bound molecules in ultracold Fermi gas

Zhengkun Fu, Pengjun Wang, Lianghui Huang, Zengming Meng, and Jing Zhang,

Physical Review A 86, 033607 (2012).


15.玻色-费米气体量子简并光学偶极阱的设计,

量子光学学报 18(2), 171-177 (2012).


14. Bose-Einstein Condensate in a light-induced vector gauge potential using the 1064 nm optical dipole trap lasers

Zhengkun Fu, Pengjun Wang, Shijie Chai, Lianghui Huang, and Jing Zhang,

Physical Review A 84, 043609 (2011).


13. Observation of collective atomic recoil motion in a degenerate Fermion gas

Pengjun Wang, L. Deng, E. W. Hagley, Zhengkun Fu, Shijie Chai, and Jing Zhang,

Physical Review Letters 106, 210401 (2011).


12. Experimental investigation of evaporative cooling mixture of bosonic 87Rb and fermionic 40K atoms with microwave and radio frequency radiation

Pengjun Wang, Dezhi Xiong, Zhengkun Fu, Jing Zhang,

Chin. Phys. B 20(1), 016701(2011).


11. Feshbach resonances in an ultracold mixture of 87Rb and 40K

Pengjun Wang, Shijie Chai, Zhengkun Fu, Jing Zhang,

Chin. Phys. B 20(10), 103401 (2011).  


10. 原子吸收成像的二维光学密度分布获得量子简并费米气体参数

王鹏军, 熊德智, 陈海霞, 张靖,

光学学报 30(3)  893-897 (2010).


9. Pulse loading 87Rb Bose-Einstein condensation in optical lattice: the Kapitza-Dirac scattering and temporal matter-wave-dispersion Talbot effect

Haixia Chen, Dezhi Xiong, Pengjun Wang, and Jing Zhang,

Chinese Optics Letters 8(4), 1671-7694 (2010).


8. Evaporative cooling rubidium atoms with microwave radiation

Haixia Chen, Dezhi Xiong, Pengjun Wang, and Jing Zhang,

Chinese Optics Letters 8(4), 351-353 (2010).


7. Evaporative cooling of 87Rb atoms into Bose-Einstein condensate in an optical dipole trap

Dezhi Xiong, Pengjun Wang, Zhengkun Fu, Shijie Chai, and Jing Zhang,

Chinses Optics Letters 8(7) 627 (2010).


6. Multi-normal-mode splitting of a cavity in the presence of atoms: A step towards the superstrong-coupling regime

Xudong Yu, Dezhi Xiong, Haixia Chen, Pengjun Wang, Min Xiao, and Jing Zhang,

Physical Review A 79, 61803(R) (2009).


5. 光学耦合腔中类电磁感应透明现象的实验研究

高峰, 叶晨光, 王鹏军, 张靖,

光学学报 29(9), 2567-2569 (2009).


4. Quantum degenerate Fermi-Bose mixtures of 40K and 87Rb atoms in a Quadrupole-Ioffe configuration trap

XIONG De-Zhi, CHEN Hai-Xia, WANG Peng-Jun, YU Xu-Dong, GAO Feng, ZHANG Jing,

China Physical Letter 25, 843 (2008).


3. 铷原子热蒸气中强非线性效应产生激光模式图样的实验研究

郭璐, 卫栋,  陈海霞, 熊德智, 王鹏军, 张靖,

物理学报 57(7), 4224(2008).  


2. 实现玻色-费米混合气体量子简并的四极Ioffe组合磁阱设计

王鹏军, 陈海霞, 熊德智, 于旭东, 高峰, 张靖,

物理学报 57(8), 4840(2008).


1. Simultaneous Mogneto-Optical trapping of Fermionic 40K and Bosonic 87Rb atoms

Wei Dong and Xiong De-Zhi and Chen Hai-xia and Wan Peng-jun and Guo Lu and Zhang Jing,

China Physical Letter 24, 1541 (2007).



联系方式:


地址:山西省太原市坞城路92号山西大学光电研究所

邮政编码:030006

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