盛继腾
精密光谱科学与技术国家重点实验室??????


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个人资料
研究方向
开授课程
科研项目
学术成果
荣誉及奖励







个人资料
部门： 精密光谱科学与技术国家重点实验室
毕业院校：
学位：
学历：
邮编：
联系电话： **
传真：
电子邮箱： jtsheng@lps.ecnu.edu.cn
办公地址： 中北校区理科大楼A1301
通讯地址： 上海市普陀区中山北路3663号理科大楼200062

教育经历

工作经历

个人简介

社会兼职
目前任Journal of Frontiers in Optics and Photonics的编委。同时担任Phys. Rev. Lett.等十余个SCI期刊的评审员。
致谢
国家自然科学基金青年基金（2018-2021）
上海市自然科学基金探索类（2017-2020）
上海市青年科技扬帆计划（2017-2020）
华东师范大学“紫江青年****”（2016-2021）


研究方向
腔光力学
腔光力学系统主要研究腔内光场操控下机械振子的量子特性，不仅在对微小位移，力，质量和加速度的高精度探测以及量子信息处理等方面有着重要应用，而且还能够在宏观尺度上验证量子力学基本问题。我们主要研究光学腔内放置薄膜这类腔光力系统，同时考虑与相干原子的耦合，实现腔内光子，宏观机械振子以及相干原子三组分耦合的新型混合量子系统，为今后进一步进行超高灵敏和突破量子极限的精密测量打下基础。



开授课程


科研项目


学术成果
32. Z. Zhang, L. Yang, J. Feng, J. Sheng, Y. Zhang, Y. Zhang, and M. Xiao, “Parity-time-symmetric optical lattice with alternating gain and loss atomic configurations”, Laser & Photonics Reviews 2018, ** (2018).
31. X. Zhang, J. Sheng, and H. Wu, “Temporal rocking in a nonlinear hybrid optomechanical system”, Optics Express 26, 6285 (2018).
30. Z. Zhang, D. Ma, J. Sheng, Y. Zhang, Y. Zhang, and M. Xiao, “Non-Hermitian optics in atomic systems”, J. Phys. B 49, 064014 (2018).
29. Z. Zhang, J. Feng, X. Liu, J. Sheng, Y. Zhang, Y. Zhang, and M. Xiao, “Controllable photonic crystal with periodic Raman gain in a coherent atomic medium”, Opt. Lett. 43, 919 (2018).
28. Z. Zhang, X. Liu, D. Zhang, J. Sheng, Y. Zhang, Y. Zhang, and M. Xiao, “Observation of electromagnetically induced Talbot effect in an atomic system with nonlinearity”, Phys. Rev. A 97, 013603 (2018).
27. S. Wu, J. Sheng, X. Zhang, Y. Wu, and H. Wu, “Mechanical Spectroscopy of Parametric Amplification in a High-Q Membrane Microresonator”, AIP advances 8, 015209 (2018).
26. J. Sheng, Y. Chao, S. Kumar, H. Fan, J. Sedlacek, and J. P. Shaffer, “Intracavity Rydberg-atom electromagnetically induced transparency using a high-finesse optical cavity”, Phys. Rev. A 96, 033813 (2017).
25. H. Fan, S. Kumar, H. Kubler, Jiteng Sheng, and J. Shaffer, “Microwave electric field measurements using Mach-Zehnder interferometer with Cesium Rydberg atoms in vapor cells”, Scientific Reports 7, 42981, (2017).
24. Jiteng Sheng, Y. Chao, and J. Shaffer, “Strong coupling of Rydberg atoms and surface phonon polaritons on piezoelectric superlattices”, Phys. Rev. Lett. 117, 103201 (2016).
23. Z. Zhang, Y. Zhang, Jiteng Sheng, L. Yang, M. Miri, D. N. Christodoulides, B. He, Y. Zhang, and M. Xiao, “Observation of parity-time symmetry in optically induced atomic lattices”, Phys. Rev. Lett. 117, 123601 (2016).
22. S. Kumar, Jiteng Sheng, J. Sedlacek, H. Fan, and J. Shaffer, “Collective state synthesis in an optical cavity using Rydberg atom dipole blockade”, J. Phys. B 49, 064014 (2016).
21. Y. Chao, Jiteng Sheng, J. Sedlacek, and J. Shaffer, “Surface phonon polaritons on anisotropic piezoelectric superlattices”, Phys. Rev. B 93, 045419 (2016).
20. H. Fan, S. Kumar, Jiteng Sheng, J. Shaffer, C. Holloway, and J. Gordon, “Effect of vapor-cell geometry on Rydberg-atom-based measurements of radio-frequency electric fields”, Physical Review Applied 4, 044015 (2015).
19. Jiteng Sheng, J. Wang, M. Miri, D. Christodoulides, and M. Xiao, “Observation of discrete diffraction patterns in an optically induced lattice”, Optics Express 23, 19777 (2015).
18. B. He, A. V. Sharypov, Jiteng Sheng, C. Simon, and Min Xiao, “Two-photon dynamics in coherent Rydberg atomic ensemble”, Phys. Rev. Lett. 112, 133606 (2014).
17. X. M. Su, Jiteng Sheng, and Min Xiao, “Coupled atomic coherences induced by a standing wave”, Optics Communications 318, 120 (2014).
16. Jiteng Sheng, J. Wang, and Min Xiao, “Synchronous control of dual-channel all-optical multistate switching”, Optics Letters 38, 5369 (2013).
15. U. Khadka, Jiteng Sheng, and Min Xiao, “Spatial-domain interactions between ultra-weak optical beams”, Phys. Rev. Lett. 111, 223601 (2013).
14. Jiteng Sheng, Mohammad-Ali Miri, D. N. Christodoulides, and Min Xiao, “PT-symmetric optical potentials in a coherent atomic medium”, Phys. Rev. A 88, 041803(R) (2013).
13. J. F. Wang, Jiteng Sheng, S. N. Zhu, and M. Xiao, “Implementation of bright two-color quadripartite continuous-variable entanglement by the quantum optical dimer”, J. Opt. Soc. Am. B 30, 2130 (2013).
12. Jiteng Sheng and M. Xiao, “Amplification of the intracavity dark-state field by a four-wave mixing process”, Laser Physics Letters 10, 055402 (2013).
11. Jiteng Sheng, U. Khadka, and M. Xiao, “Realization of All-optical Multistate Switching in an Atomic Coherent Medium”, Phys. Rev. Lett. 109, 223906 (2012).
10. U. Khadka, Jiteng Sheng, X. Yang, and M. Xiao, “Measurement of Two Independent Phase-shifts Using Coupled Parametric Amplifiers”, New Journal of Physics, 14, 043026 (2012).
9. Jiteng Sheng, H. Wu, X. Yang, U. Khadka, and M. Xiao, “Noise Correlations in a Doubly-resonant Atomic Optical Parametric Oscillator”, Optics Letters 37, 1655 (2012).
8. X. Yang, Jiteng Sheng, U. Khadka, and M. Xiao, “Generation of Correlated and Anti-correlated Multiple Fields via Atomic Spin Coherence”, Phys. Rev. A 85, 013824 (2012).
7. Jiteng Sheng, X. Yang, H. Wu, and M. Xiao, “Modified self-Kerr-nonlinearity in a four-level N-type atomic system”, Phys. Rev. A 84, 053820 (2011).
6. X. Yang, Jiteng Sheng, and M. Xiao, “Electromagnetically induced absorption via incoherent collisions”, Phys. Rev. A 84, 043837 (2011).
5. Jiteng Sheng, X. Yang, U. Khadka, and M. Xiao, “All-optical Switching in an N-type Four-level Atom-cavity System”, Optics Express 19, 17059 (2011).
4. X. Yang, Jiteng Sheng, U. Khadka, and M. Xiao, “Simultaneous Control of Two Four-wave Mixing Fields via Atomic Spin Coherence”, Phys. Rev. A 83, 063812 (2011).
3. Jiteng Sheng, H. Wu, M. Mumba, J. Gea-Banacloche and M. Xiao, “Understanding Cavity Resonances with Intracavity Dispersion Properties”, Phys. Rev. A 83, 023829 (2011).
2. Y. B. Yu, Jiteng Sheng, and M. Xiao, “Generation of Bright Quadricolor Continuous-variable Entanglement by Four-wave Mixing Process”, Phys. Rev. A 83, 012321 (2011).
1. S. Li, X. Zhou, X. Cao, Jiteng Sheng, Y. Xu, Z. Wang, and Qiang Lin, “All-optical high sensitive atomic magnetometer”, Acta Physica Sinica 59, 877 (2010).


荣誉及奖励


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