郝翔 - 苏州科技大学

个人简介

苏州科技大学数理学院教授，苏州市物理学会副理事。2008年6月毕业于苏州大学现代光学研究所，获工学博士学位。2012.06-2014.06中国科学院理论物理研究所和中国人民大学从事博士后工作，2014.07-2015.04加拿大英属哥伦比亚大学物理天文系（UBC）访问学者（合作导师：Philip C.E. Stamp 教授，美国科学院院士）。2012年被遴选为硕士生导师。2012年入选江苏省教育厅“青蓝人才工程”；2013年入选江苏省“333人才工程”。2015年评选为苏州科技大学我心目中的好老师。

研究领域

量子光学和量子信息。主要研究领域是量子控制、量子测量、量子通讯、量子计算、量子人工智能等方面。主要研究内容是通过激光技术、光子学、电磁调控等手段，在量子系统中预测新现象，将理论成果应用于实验中；解释实验现象，提出新机理和新理论。目前研究兴趣：基于光子技术的量子调控、量子人工智能和相对论量子信息。

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

[1] Y.-Q. Xie, Y.-M. Huang, Y.-Z. Wu, Xiang Hao*, “Quantum demultiplexer of quantum parameter-estimation information in quantum networks”, Quantum Information Processing 17, 108(2018). [2] Wei Xun, Xiang Hao, Tao Pan, Jia-Lin Zhong, Chun-Lan Ma, Fang Hou, and Yin-Zhong Wu, “Electric controlling of surface metal-insulator transition in the doped BaTiO3 film”,AIP ADVANCES 7, 075302 (2017). [3] W.-J. Wu, K. Yan, Y.-Q. Xie, Yinzhong Wu and Xiang Hao*, “Quantum speed-up dynamical crossover in open systems”,International Journal of Quantum Information,Vol. 15, No. 4, 1750027 (2017). [4] K. Yan, Y.-Q. Xie, Y.-M. Huang, Xiang Hao*, “Quantum Fisher Information of Driven Multi-particle Systems in Structured BosonicReservoirs”,Communication Theoretical Physics, 67,261(2017) . [5] W.-J. Wu, K. Yan, Yinzhong Wu and Xiang Hao*, “Thermal quantum speed limit for classical-driving open systems”, Modern Physics Letters B, Vol. 30, Nos. 32, 1650389(2016). [6] Xiang Hao* and Yinzhong Wu, “Quantum nonunital dynamics ofspin-bath-assisted Fisher information”, AIP ADVANCES 6, 045106 (2016). [7] Xiang Hao* and Yinzhong Wu, “Quantum parameter estimation in the Unruh–DeWitt detector model”, Annals of Physics, 372, 110(2016). [8] Xiang Hao*, X.-Q. Wang, C. Liu, and S. Zhu,“Finite-temperature decoherence of spin states in a {Cu3} single molecular magnet”, Journal of Physics B: Atom Molcular Optics Physics, 46 025502(2013). [9] Xiang Hao*, N.-H. Tong, and S. Zhu,“Dynamics of the quantum Fisher information in a spin-boson model”,Journal of Physics A: Mathematical and Theoretical, 46, 355302(2013). [10] Xiang Hao*, S. Zhu, “ENHANCED QUANTUM TELEPORTATION IN NON-MARKOVIAN ENVIRONMENTS”,International Journal of Quantum Information, 5,125005(2012). [11] Xiang Hao*, J.-Q. Sha, J. Sun, “Dynamics of Quantum Entanglement in Reservoir with Memory Effects ”,Communication Theoretical Physics ,57, 29(2012). [12] Xiang Hao*, T. Pan, J.-Q. Sha, S. Zhu, “Dynamics of Quantum Discord in Asymmetric and Local Non-Markovian Environments”, COMMUNICATIONS IN THEORETICAL PHYSICS , 55, 41(2011). [13] Xiang Hao*, “Quantum renormalization of entanglement in an antisymmetric anisotropic and bond-alternating spin system”, Physical Review A, 81, 044301(2010). [14] Xiang Hao*, Chun-Lan Ma, and Jin-Qiao Sha, “Decoherence of quantum discord in an asymmetric-anisotropy spin system”, Journal of Physics A: Mathematical and Theoretical, 2010, 43(42):425302. [15] Xiang Hao*, “Thermal decoherence of long-distance entanglement in spin-1 chains” Physical Review A, 80, 024303(2009). [16] X. F. Jiang, Y. Z. Wu, C. H. Shi, Xiang. Hao and T. Pan,“Dynamics of entanglement in one-dimensional Ising chains with two- and three-body interactions”, European Physics Journal D, 53,253(2009). [17] J. Ren, S. Zhu and Xiang. Hao, Entanglement entropy in an antiferromagnetic Heisenberg spin chain with boundary impurity ,Journal of Physics B: Atom Molcular Optics Physics, 42, 015504(2009). [18] Xiang Hao*, S. Zhu, “Quantum information processing in a spin-bus system of coupled chains”, Physical Review A,78, 044302(2008). [19] Xiang Hao*, S. Zhu, “Swap action in a solid-state controllable anisotropic Heisenberg model”, PHYSICS LETTERS A , 372, 1119(2008). [20] Xiang Hao*, S. Zhu, “Enhanced teleportation through anisotropic Heisenberg quantum spin chains ”, MODERN PHYSICS LETTERS B, 22, 17(2008).