姓名:安钧鸿

						安钧鸿,教授,博士生导师。2005年在兰州大学获得博士学位,并同年按兰州大学萃英计划引进人才计划(副教授)留校工作。2006年4月至2007年7月在台湾成功大学量子资讯中心从事博士后,2007年10月至2008年9月和2009年9月至2010年9月在新加坡国立大学物理系从事研究员,2011年1月至2014年12月在新加坡国立大学量子技术中心从事访问研究员(4-6个月/年);2011年5月受聘为教授;2013年入选教育部新世纪优秀人才支持计划;2016年入选甘肃省飞天学者;2017年入选中央军委科技委主题专家组专家;2018年当选中国物理学会量子光学专业委员会委员;2019年入选国家“万人计划”青年拔尖人才。主持国家自然科学基金5项(其中面上基金3项、青年基金和专项基金各1项);教育部博士点基金和甘肃省自然科学基金各1项。
					

						主要从事量子物理基础问题研究,包括量子光学、量子信息、量子相变以及非平衡量子统计动力学等方面的研究。
					
						本科生:
2019秋:量子物理基础I
2010-2018秋:量子力学
2010-2014秋:理论力学
2008秋:理论物理导论(理论力学和电动力学部分)
2009春:理论物理导论(量子力学和热力学与统计物理部分)

研究生:
2019秋:量子光学
2014-2017秋:量子光学
2008秋:高等量子力学
					
						[1] Jun-Hong An*, Wei-Min Zhang, Non-Markovian entanglement dynamics of noisy continuous-variable quantum channels, Phys. Rev. A 76, 042127 (2007).
[2] Jun-Hong An*, M. Feng, C. H. Oh, Quantum information processing with a single photon by input-output process regarding low-Q cavities, Phys. Rev. A 79, 032303 (2009).
[3] Juan-Juan Chen, Jun-Hong An*, Qing-Jun Tong, Hong-Gang Luo, and C. H. Oh, Non-Markovian effect on the geometric phase of a dissipative qubit, Phys. Rev. A 81, 022120 (2010).
[4] Ye Yeo, Jun-Hong An*, and C. H. Oh, Non-Markovian effects on quantum-communication protocols, Phys. Rev. A 82, 032340 (2010).
[5] Qing-Jun Tong, Jun-Hong An*, Hong-Gang Luo, and C. H. Oh, Mechanism of entanglement preservation, Phys. Rev. A 81, 052330 (2010).
[6] Qing-Jun Tong, Jun-Hong An*, Hong-Gang Luo, and C. H. Oh, Quantum phase transition in the delocalized regime of the spin-boson model, Phys. Rev. B 84, 174301 (2011).
[7] Wang-Li Yang, Jun-Hong An*, Chengjie Zhang, Mang Feng, C. H. Oh, Preservation of quantum correlation of nitrogen-vacancy centers embedded in photonic crystal, Phys. Rev. A 87, 022312 (2013).
[8] Hai-Bin Liu, Jun-Hong An*, Chong Chen, Qing-Jun Tong, Hong-Gang Luo, and C. H. Oh, Anomalous decoherence in a dissipative two-level system, Phys. Rev. A 87, 052139 (2013).
[9] Qing-Jun Tong, Jun-Hong An*, Jiangbin Gong, Hong-Gang Luo, C. H. Oh, Generating Many Majorana Modes via Periodic Driving: A Superconductor Model, Phys. Rev. B 87, 201109(R) (2013).
[10] Ying-Qi Lü, Jun-Hong An*, Hong-Gang Luo, and C. H. Oh, Frozen Gaussian quantum discord in photonic crystal cavity array system, Phys. Rev. A 88, 012129 (2013).
[11] Qing-Jun Tong, Jun-Hong An*, L. C. Kwek, Hong-Gang Luo, and C. H. Oh, Simulating Zeno physics by quantum quench with superconducting circuits, Phys. Rev. A 89, 060101(R) (2014).
[12] Chun-Jie Yang, Jun-Hong An*, Hong-Gang Luo, Yading Li, and C. H. Oh, Canonical versus non-canonical equilibration dynamics of open quantum systems, Phys. Rev. E 90, 022122 (2014).
[13] Maoxin Liu, Zu-Jian Ying, Jun-Hong An, and Hong-Gang Luo, Mean photon number dependent variational method to the Rabi model, New J. Phys. 17, 043001 (2015).
[14] Chong Chen, Jun-Hong An*, Hong-Gang Luo, C. P. Sun, and C. H. Oh, Floquet control of quantum dissipation in spin chains, Phys. Rev. A 91, 052122 (2015).
[15] Chun-Jie Yang, Jun-Hong An*, Wanli Yang, and Yong Li, Generation of stable entanglement between two cavity mirrors by squeezed-reservoir engineering, Phys. Rev. A 92, 062311 (2015).
[16] Hai-Bin Liu, W. L. Yang, Jun-Hong An*, and Zhen-Yu Xu, Mechanism for quantum speedup in open quantum system, Phys. Rev. A 93, 020105(R) (2016).
[17] Chun-Jie Yang and Jun-Hong An*, Resonance fluorescence beyond the dipole approximation of a quantum dot in plasmonic nanostructure, Phys. Rev. A 93, 053803 (2016).
[18] Tian-Shi Xiong, Jianbing Gong, and Jun-Hong An*, Towards large-Chern-number topological phases by periodic driving, Phys. Rev. B 93, 184306 (2016).
[19] Chong Chen, Chun-Jie Yang, and Jun-Hong An*, Exact decoherence free state of two distant quantum systems in a non-Markovian environment, Phys. Rev. A 93, 062122 (2016).
[20] Chun-Jie Yang and Jun-Hong An*, Suppressed dissipation of a quantum emitter coupled to surface plasmon polaritons, Phys. Rev. B 95, 161408(R) (2017).
[21] W. L. Song, W. L. Yang, Jun-Hong An*, and M. Feng, Dissipation-assisted spin squeezing of nitrogen-vacancy centers coupled to a rectangular hollow metallic waveguide, Opt. Express 25, 19226 (2017).
[22] Yuan-Sheng Wang, Chong Chen, and Jun-Hong An*, Achieving Heisenberg limit of quantum metrology in non-Markovian dissipative noises, New J. Phys. 19, 113019 (2017).
[23] Chao Ma, Yuan-Sheng Wang, and Jun-Hong An*, Floquet engineering of localized propagation of light in waveguide array, Phys. Rev. A 97, 023808 (2018).
[24] Hui Liu, Tian-Shi Xiong, Wei Zhang, and Jun-Hong An*, Floquet engineering of exotic topological phases in systems of cold atoms, Phys. Rev. A 100, 023622 (2019).
[25] Chun-Jie Yang, Jun-Hong An*, and Hai-Qing Lin*, Signatures of quantized coupling between quantum emitters and localized surface plasmons, Phys. Rev. Research 1, 023027 (2019).
[26] Kai Bai, Zhen Peng, Hong-Gang Luo, and Jun-Hong An*, Retrieving ideal precision in noisy quantum optical metrology, Phys. Rev. Lett. 123, 040402 (2019).
					
						1. 在退相干方面提出了non-Markovian效应和束缚态形成对退相干影响的物理框架;揭示了量子系统和其环境形成的束缚态在退相干抑制、纠缠保护、量子相变、量子计量、量子速度极限和非正则热化中的支配作用。

2. 开展周期性驱动调控系统Floquet束缚态诱导的非平衡量子相变研究。提出了通过时间周期性调制Floquet准能谱束缚态的形成来抑制退相干的方案;提出了通过周期性驱动操控以产生准能谱中0模和π模束缚态来人工合成以Kitaev模型多重Majorana边界态和Haldane模型大陈数拓扑绝缘相为代表的极端拓扑物态的新颖方案。

3. 在量子网络方面建立了极化光子对低品质腔输入-输出过程的Faraday旋转描述,其被广泛用于量子信息处理方案中。