姓名:王东阳
所属部门:物理学院 光电信息科学研究所
职称/职务:求是计划特聘副研究员/硕士生导师
学历:研究生
学位:博士
所学专业:物理学
研究方向:量子光学与量子信息、腔光力学、量子调控
电子邮件:dywang@zzu.edu.cn
联系地址:物理学院C楼221
欢迎对量子物理感兴趣的同学报考研究生,有相关问题请随时联系!招生专业:光学
个人简介:
王东阳,男,1992年11月生,河南原阳县人,2021年6月博士毕业于哈尔滨工业大学,2021年9月入职郑州大学,直聘副研究员。主要研究领域为腔光力学中量子效应的研究,目前已发表SCI论文40余篇。
科研项目:
主持:国家自然科学基金青年项目一项
主持:国家自然科学基金专项项目一项
部分发表论文:
1. Fast multiqubit Rydberg geometric fan-out gates with optimal control technology, JF Wei, FQ Guo, DY Wang, Y Jia, LL Yan, M Feng, SL Su, Physical Review A 105 (4), 042404 (2021).
2. Dissipative Generation of Two‐Mode Mechanical Squeezing via Frequency Modulation, TQ Zhang, DY Wang, CH Bai, S Zhang, HF Wang, Advanced Quantum Technologies 5 (2), 2100113 (2021).
3. Optical Amplification and Fast-Slow Light in a Three-Mode Cavity Optomechanical System without Rotating Wave Approximation, YN Zhao, T Wang, DY Wang, X Han, S Zhang, HF Wang, Photonics 8 (9), 384 (2021).
4. Optomechanically induced Faraday and splitting effects in a double-cavity optomechanical system, T Wang, CH Bai, DY Wang, S Liu, S Zhang, HF Wang, Physical Review A 104 (1), 013721 (2021).
5. Generation of Strong Mechanical–Mechanical Entanglement by Pump Modulation, CH Bai, DY Wang, S Zhang, S Liu, HF Wang, Advanced Quantum Technologies 4 (5), 2000149 (2021).
6. Double-mechanical-oscillator cooling by breaking the restrictions of quantum backaction and frequency ratio via dynamical modulation, CH Bai, DY Wang, S Zhang, S Liu, HF Wang, Physical Review A 103 (3), 033508 (2021).
7. Enhanced photon blockade via driving a trapped -type atom in a hybrid optomechanical system, DY Wang, CH Bai, Y Xing, S Liu, S Zhang, HF Wang, Physical Review A 102 (4), 043705 (2020).
8. Dissipative bosonic squeezing via frequency modulation and its application in optomechanics, DY Wang, CH Bai, S Liu, S Zhang, HF Wang, Optics Express 28 (20), 28942-28953 (2020).
9. Photon blockade in a double-cavity optomechanical system with nonreciprocal coupling, DY Wang, CH Bai, S Liu, S Zhang, HF Wang, New Journal of Physics 22 (9), 093006 (2020).
10. Strong mechanical squeezing in a standard optomechanical system by pump modulation, CH Bai, DY Wang, S Zhang, S Liu, HF Wang, Physical Review A 101 (5), 053836 (2020).
11. Enhanced photon blockade in an optomechanical system with parametric amplification, DY Wang, CH Bai, X Han, S Liu, S Zhang, HF Wang, Optics letters 45 (9), 2604-2607 (2020).
12. Mechanical squeezing beyond resolved sideband and weak-coupling limits with frequency modulation, X Han, DY Wang, CH Bai, WX Cui, S Zhang, HF Wang, Physical Review A 100 (3), 033812 (2019).
13. Distinguishing photon blockade in a -symmetric optomechanical system, DY Wang, CH Bai, S Liu, S Zhang, HF Wang, Physical Review A 99 (4), 043818 (2019).
14. Manipulation of nanomechanical resonator via shaking optical frequency, DY Wang, CH Bai, S Liu, S Zhang, HF Wang, Journal of Physics B: Atomic, Molecular and Optical Physics 52 (4), 045502 (2019).
15. Optomechanical cooling beyond the quantum backaction limit with frequency modulation, DY Wang, CH Bai, S Liu, S Zhang, HF Wang, Physical Review A 98 (2), 023816 (2018).
16. Spontaneous -symmetry breaking in non-Hermitian coupled-cavity array, Y Xing, L Qi, J Cao, DY Wang, CH Bai, HF Wang, AD Zhu, S Zhang, Physical Review A 96 (4), 043810 (2017).
17. Steady-state mechanical squeezing in a double-cavity optomechanical system, DY Wang, CH Bai, HF Wang, AD Zhu, S Zhang, Scientific reports 6 (1), 1-10 (2016).
18. Generation of tree-type three-dimensional entangled states via adiabatic passage, C Song, SL Su, JL Wu, DY Wang, X Ji, S Zhang, Physical Review A 93 (6), 062321 (2016).
19. Steady-state mechanical squeezing in a hybrid atom-optomechanical system with a highly dissipative cavity, DY Wang, CH Bai, HF Wang, AD Zhu, S Zhang, Scientific reports 6 (1), 1-8 (2016)
20. Scheme for generating the singlet state of three atoms trapped in distant cavities coupled by optical fibers, DY Wang, JJ Wen, CH Bai, S Hu, WX Cui, HF Wang, AD Zhu, S Zhang, Annals of Physics 360, 228-236 (2015).