黄金凤 教授

发布人:日期:2024-02-28浏览数:


个人简介

黄金凤,博士,教授,博士生导师,2007年6月于新·葡萄88805获得学士学位,2010年6月于新·葡萄88805获得硕士学位(导师:匡乐满教授,期间在中国科学院理论物理研究所孙昌璞院士研究组联合培养),2013年7月于中国科学院理论物理研究所获得博士学位(导师:孙昌璞院士)。2013年7月至2014年8月在香港中文大学从事博士后研究工作(合作导师:Chi Kwong Law)。2014年7月入职新·葡萄88805,2016年和2021年先后两次入选新·葡萄88805“世承人才计划”,2020年入选湖南省青年骨干教师培养对象。曾到日本理化学研究所(RIKEN,Japan)和美国加州大学默塞德分校(University of California,Merced,USA)进行学术访问。主要从事量子物理、量子光学和量子信息领域的基础理论研究。近五年聚焦于研究光与原子超强耦合系统、波导量子电动力学系统及光与振子耦合系统中的新奇量子效应及其在前沿量子科技中的应用。已在《Light: Science & Applications》(SCI 1区)、《Sci. China-Phys. Mech. Astron.》(SCI 1区)、《Physical Review A》(SCI 2区)、《Optics Express》(SCI 2区)和《Ann. Phys. (Berlin)》(SCI 2区)等国际权威物理学期刊上发表学术论文30余篇。主持国家自然科学基金面上项目1项、青年项目1项、理论物理专款项目1项,主持湖南省自然科学基金青年项目1项和湖南省教育厅科学研究重点项目1项。担任Adv.Quantum Technol.、New J. Phys.、Ann. Phys.、 Opt. Express等多个学术期刊的审稿人。1篇论文入选ESI高被引论文。

办公室:量子楼407

Email: jfhuang@hunnu.edu.cn

学术贡献

1.提出了一系列在量子Rabi模型中实现反旋转波相互作用量子调控的物理方案,提出了超强耦合Jaynes-Cummings模型的物理概念;

2.提出了在超强耦合量子Rabi模型中实现虚实光子转换的受激辐射物理方案,揭示了虚光子转化为实光子的物理机理;

3.提出了调控多光子阻塞效应的物理方案,给出了描述多光子阻塞的新判据,揭示了多光子过程对光子阻塞的调控机制;

4.发展了一套基于拉普拉斯变换和Lippmann-Schwinger方程的散射理论方法,获得了波导中少光子散射问题的精确解析解。

欢迎对量子物理、量子光学和量子信息方向有兴趣的同学加入课题组。要求:身心健康、热爱科研、勤奋。

教学情况

1. 近5年讲授本科生课程:《物理光学》《普物实验》《大学物理》《普通物理》和《复变函数与积分变换》;

2. 近5年讲授研究生课程:《腔量子电动力学专题》《量子物理前沿专题》和《开放量子系统理论》。

承担课题

A.科研课题

1.主持国家自然科学基金面上项目:光与物质超强耦合系统中的量子效应及量子调控(批准号:12075083,研究期限:2021-01-01至 2024-12-31);

2.主持国家自然科学基金青年科学基金项目:超强耦合下受限量子系统的量子相干效应及其量子调控(批准号:11505055,研究期限:2016-01-01至2018-12-31);

3.主持国家自然科学基金理论物理专款项目:非旋转波相互作用的量子效应及其应用(批准号:11447102,研究期限:2015-01-01至2015-12-31);

4.主持湖南省自然科学基金青年项目:光与物质深强耦合系统中多模光场的量子效应及其应用研究(批准号:2020JJ5345,研究期限:2020-01-01至2022-12-31);

5.主持湖南省教育厅科学研究重点项目:频率调制下超强耦合系统少光子调控研究(批准号:18A007,研究期限:2018-09-01至2021-08-31);

6.参与(第一参与人)国家自然科学基金面上项目:腔光力系统中的量子效应及其量子调控(批准号:11774087,研究期限:2018-01-01至2021-12-31)。

B. 教学课题

1.主持2021年度新·葡萄88805教学教改研究项目:应用物理班《物理光学》课程教学改革研究;

2.参与(第一参与人)2020年度湖南省学位与研究生教育改革研究项目:《量子物理前沿》课程教学改革的实践与探索,2020JGYB087。

代表性论文(#共同第一作者,*通讯作者)

[37] Cheng Liu,Jin-Feng Huang*,Quantum phase transition of the Jaynes-Cummings model, Sci. China-Phys. Mech. Astron.67(1),210311(2024).

[36] Cheng Liu,Jin-Feng Huang*, Lin Tian, Deterministic generation of multi-photon bundles in a quantum Rabi model,Sci. China-Phys. Mech. Astron.66 (2), 220311 (2023),ESI 高被引论文。

[35]Jin-Feng Huang*and Lin Tian*, Modulation-based superradiant phase transition in the strong-coupling regime,Phys. Rev. A107, 063713 (2023), 在APS March Meeting 2023宣讲。

[34] Shu-Yuan Jiang, Fen Zou, Yi Wang,Jin-Feng Huang*, Xun-Wei Xu*, and Jie-Qiao Liao*, Multiple-photon bundle emission in then-photon Jaynes-Cummings model,Opt. Express31, 15697 (2023).

[33] Wang-Yan Liu, Li-Bao Fan, Ye-Xiong Zeng,Jin-Feng Huang*, andJie-Qiao Liao*, Quantum thermalization and thermal entanglement in the open quantum Rabi model,Ann. Phys. (Berlin)535, 2200502 ( 2022).

[32] Ying Hu, Jian Huang,Jin-Feng Huang*, Qiong-Tao Xie*, and Jie-Qiao Liao*, Dynamic sensitivity of quantum Rabi model with quantum criticality, arXiv:2101.01504, submitted toPhys. Rev. A, under review.

[31]Jian Huang, Deng-Gao Lai, Cheng Liu,Jin-Feng Huang,Franco Nori, and Jie-Qiao Liao*, Multimode optomechanical cooling via general dark-mode control,Phys. Rev. A106, 013526 (2022).

[30]Xian-Li Yin, Yu-Hong Liu,Jin-Feng Huang*,and Jie-Qiao Liao*,Single-photon scattering in a giant-molecule waveguide-QED system,Phys. Rev. A106, 013715 (2022).

[29]Yu-Hong Liu, Xian-Li Yin,Jin-Feng Huang*,and Jie-Qiao Liao*, Accelerated ground-state cooling of an optomechanical resonator via shortcuts to adiabaticity,Phys. Rev. A105, 023504 (2022).

[28]陈冬成,周岳辉,黄金凤*,廖洁桥*,混合腔光力系统的双光子散射,光学学报,42,0327015 (2022)(特邀论文)。

[27]Ya-Ting Guo#, Fen Zou#,Jin-Feng Huang*,and Jie-Qiao Liao*,Retrieval of photon blockade effect in the dispersive Jaynes-Cummings model,Phys. Rev. A105, 013705 (2022).

[26]Jin Liu, Yue-Hui Zhou, Jian Huang,Jin-Feng Huang, and Jie-Qiao Liao*, Quantum simulation of a three-mode optomechanical system based on the Fredkin-type interaction,Phys. Rev. A104, 053715 (2021).

[25]Hong Deng#, Fen Zou#,Jin-Feng Huang,and Jie-Qiao Liao*, Optical normal-mode-induced phonon-sideband splitting in the photon-blockade effect,Phys. Rev. A104, 033706 (2021).

[24]Jin-Feng Huang*,Jie-Qiao Liao*, and Le-Man Kuang, Ultrastrong Jaynes-Cummings Model,Phys. Rev. A101, 043835 (2020).

[23]Li-Bao Fan, Yue-Hui Zhou, Fen Zou, Huan Guo,Jin-Feng Huang*,and Jie-Qiao Liao*, Quantum thermalization and vanishing thermal entanglement in the open Jaynes-Cummings model,Ann. Phys. (Berlin)532, 2000134 (2020).

[22]Fen Zou, Xiao-Ya Zhang, Xun-Wei Xu,Jin-Feng Huang*, and Jie-Qiao Liao*, Multiphoton blockade in the two-photon Jaynes-Cummings model,Phys. Rev. A102, 053710 (2020).

[21]Yue-Hui Zhou,Qing-Shou Tan,Xi-Ming Fang,Jin-Feng Huang*,and Jie-Qiao Liao*,Spectrometric detection of weak forces in cavity optomechanics,Opt. Express28(19), 28620 (2020).

[20]Deng-Gao Lai,Jin-Feng Huang,Xian-Li Yin, Bang-Pin Hou, Wenlin Li, David Vitali, Franco Nori,and Jie-Qiao Liao*,Nonreciprocal ground-state cooling of multiple mechanical resonators,Phys. Rev. A (Rapid Communication)102, 011502 (2020).

[19]Jian Huang, Yu-Hong Liu,Jin-Feng Huang*,and Jie-Qiao Liao*,Generation of macroscopic entangled cat states in alongitudinally coupled cavity-QEDmodel,Phys. Rev. A101, 043841 (2020).

[18]Jian-Yong Zhou, Yue-Hui Zhou, Xian-Li Yin,Jin-Feng Huang*, and Jie-Qiao Liao*, Quantum entanglement maintained by virtual excitations in an ultrastrongly-coupled-oscillator system,Sci. Rep.10, 12557 (2020).

[17]Jie-Qiao Liao*,Jin-Feng Huang, Lin Tian, Le-Man Kuang, and Chang-Pu Sun, Generalized ultrastrong optomechanical-like coupling,Phys. Rev. A101, 063802 (2020).

[16]Fen Zou,Li-Bao Fan,Jin-Feng Huang*, and Jie-Qiao Liao*, Enhancement of few-photon optomechanical effects with cross-Kerr nonlinearity,Phys. Rev. A99, 043837 (2019).

[15]Yue-Hui Zhou, Fen Zou, Xi-Ming Fang,Jin-Feng Huang*, and Jie-Qiao Liao*, Spectral Characterization of Couplings in a Mixed Optomechanical Model,Commun. Theor. Phys. 71, 939 (2019).

[14]Jin-Feng Huang*, Jie-Qiao Liao*, Lin Tian, and Le-Man Kuang, Manipulating counter-rotating interactions in the quantum Rabi model via modulation of the transition frequency of the two-level system,Phys. Rev. A96, 043849 (2017).

[13]Jie-Qiao Liao*,Jin-Feng Huang, and Lin Tian*, Generation of macroscopic Schroedinger-cat states in qubit-oscillator systems,Phys. Rev. A93, 033853 (2016).

[12]T. Y. Li,J. F. Huang, and C. K. Law, Scattering of two distinguishable photons by a Ξ-type three-level atom in a one-dimensional waveguide,Phys. Rev. A91, 043834 (2015).

[11]Jin-Feng Huangand C. K. Law,Phase-kicked control of counter-rotating interactions in the quantum Rabi model,Phys. Rev. A91, 023806 (2015).

[10]Jin-Feng Huangand C. K. Law,Photon emission via vacuum-dressed intermediate states under ultrastrong coupling,Phys. Rev. A89, 033827 (2014).

[9]Wei-Bin Yan,Jin-Feng Huang,and Heng Fan*, Tunable single-photon frequency conversion in a Sagnac interferometer,Sci. Rep.3, 3555 (2013).

[8]Jin-Feng Huang, Tao Shi, C. P. Sun,and Franco Nori, Controlling single-photon transport in waveguides with finite cross section,Phys. Rev. A88, 013836 (2013).

[7]Jin-Feng Huang,Jie-Qiao Liao, and C. P. Sun*, Photon blockade induced by atoms with Rydberg coupling,Phys. Rev. A87, 023822 (2013).

[6]Jin-Feng Huang, Qing Ai, Yuangang Deng, C. P. Sun,and Franco Nori, Quantum statistics of the collective excitations of an atomic ensemble inside a cavity,Phys. Rev. A85, 023801 (2012).

[5]Hui Dong, Da-Zhi Xu,Jin-Feng Huang, and Chang-Pu Sun*, Coherent excitation transferviathe dark-state channel in a bionic system,Light: Science & Applications1, e2 (2012).

[4]Jie-Qiao Liao,Jin-Feng Huang,and Le-Man Kuang, Quantum thermalization of two coupled two-level systems in eigenstate and bare-state representations,Phys. Rev. A83, 052110 (2011).

[3]Jie-Qiao Liao,Jin-Feng Huang, Le-Man Kuang, and C. P. Sun, Coherent excitation-energy transfer and quantum entanglement in a dimer,Phys. Rev. A82, 052109 (2010).

[2]Jie-Qiao Liao,Jin-Feng Huang, Yu-xi Liu, Le-Man Kuang,and C. P. Sun, Quantum switch for single-photon transport in a coupled superconducting transmission-line-resonator array,Phys. Rev. A80,014301 (2009).

[1]Jin-Feng Huang, Yong Li, Jie-Qiao Liao,Le-Man Kuang*,and C. P. Sun*, Dynamic sensitivity of photon-dressed atomic ensemble with quantum criticality,Phys.Rev. A80, 063829 (2009).

获奖情况

1.2020年入选湖南省青年骨干教师培养对象;

2.2023年湖南省光学科技进展奖二等奖,第一完成人;

3.2016年和2021年两次入选新·葡萄88805“世承人才计划”;

4.2022-2023年度新·葡萄88805“十佳班导师”;

5.第20届新·葡萄88805青年教师课堂教学竞赛校级三等奖,2020年;

6.第20届新·葡萄88805青年教师课堂教学竞赛院级一等奖,2020年。

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