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                張靖 副教授

                自動化系控制理論與技術研究所
                清華信息科學與技術國家實驗室量子信目光不由朝下方看了过去息科學與技術中心

                通信地址:北京市海澱區清華大學※自動化系 郵政編碼:100084
                電話:010-62797485 Fax:010-62797485

                展開
                教育背景

                1997年9月至2001年7月 在清華大學數學科學系應用數學專業學習,獲理學接过令牌學士學位;

                2001年9月至2006年7月 在清華大學㊣ 自動化系控制科學與工程專業學習,獲工學博士學位

                工作履歷

                2006年7月至2008年5月 清華大學計算機科學與技術系,博士後
                2008年5月至2010年12月 清華大學自動化系,講師
                2010年12月至今 清華大學自動化系,副教授
                2008年2月至3月 2008年7月至2009年2月,日本理化學研究所(RIKEN),訪問學者
                2010年4月至2010年7月 臺灣成功大我给你们个机会學,訪問學者

                學術兼職

                擔任國際期刊IEEE Transactions on Automatic Control,Automatica,Physica A審稿人,國內期刊為科學通報,Frontiers of Electrical and Electronic Engineering in China,Frontiers of Physics in China,系統科烈阳军团學與數學,控制理論與應用,中國科學院研究生院學報等期刊審稿人;

                曾為國際會恨意議Control and Decision Conference 2007, 2008,European Control Conference 2007,International Conference on Quantum, Nano and Micro Technologies 2008擔任審稿人快。

                研究領域

                光機械系統中的信息處理與控制理論與實驗;

                基於微光學腔的矽基微納光子學實驗;

                超導電路中的量子信息處理與控制理論;

                量子測量與量子反饋控制理論。

                研究概況

                1.國家自然√科學基金優秀青年科學基金(61622306),“量子胸口穿透與微納系統控制”,課題負責〗人,2017.1-2019.12

                2.國家自然科學基金面上項目(11674194),“微型環芯腔系統中的光機械非線性效應及其應用眼中精光闪烁研究”,課題負責忘流苏眼中精光爆闪人,2017.1-2019.12

                3.國家自然科學基金面上項目(61174084),“超導第七百七十一電路中的非線性量子反饋控制網絡及應用研究”,課題負責人,2012.1-2015.12

                4.清華大學自主創新項目基礎研究專項,“芯片上的量子反饋控制研究”,課題負責人,2013.10-2016.9

                5.清華信息科學與技術國家實驗室(籌)學科□交叉基金,“矽在那巅峰虚神惊恐芯片上微腔及光機械系統中的信息傳輸與控制∮”,課題負責人,2014.1-2015.12

                6.國家自然科學基金青年基金項目(60704017),“用經典裝置測控量子系統的混合控制系統传说中研究”,課題負責人2008.1-2010.12

                7.機器人學國家重點實驗室開放課題,“基於石墨烯的可控納米加工研究”,課題負責人,2012.1-2013.12

                8.973量子調控項目“固體量子計算的器件物理基礎”(SQ2013CC021156),參與,2014.1-2019.12

                9.國家自然科學基金重點項目(61134008),“量子體系控制理論與實驗驗證系統”,參與,2012.1-2016.12

                10.國家基金委海外及三成力量艾就这么毁了港澳學者合作研究基金項目(61328502),“光力系統的基本量子性質及相幹調控研究”,參與,2014.1-2015.12

                11.中國博士後科學基金(一等資助),“納米操作系統量子化及控制研究☆”,課題負責人 2007.1-2008.7

                獎勵與榮譽

                國際自動控制聯合會(IFAC)世界大會青年作者獎(Young Author Award,2011)

                國家自然科學基金優秀青年科學基金(2016)

                清感觉到了吗華大學優秀博士論文(二等)

                清華大學自動化系學術新★秀

                學術成果

                期刊論文
                [1] J. Zhang, Y.-X. Liu, R.-B. Wu, K. Jacobs, and F. Nori, Quantum feedback: theory, experiments, and applications, accepted by Physics Reports.

                [2] Z. P. Liu, J. Zhang* (co-first author), S. K. ?zdemir, B. Peng, H. Jing, X.-Y. Lü, C.-W. Li, L. Yang, F. Nori, and Y.-X. Liu, Metrology with PT-Symmetric Cavities: Enhanced Sensitivity near the PT-Phase Transition, Phys. Rev. Lett. 117, 110802 (2016).

                [3] F. Monifi, J. Zhang*(co-first auther), ?. K. ?zdemir*, B. Peng, Y.-X. Liu, F. Bo, F. Nori and L. Yang*, Optomechanically-induced stochastic resonance and chaos transfer between optical fields, Nature Photonics 10, 399-405 (2016).

                [4] J. Zhang*, B. Peng, S. K. Ozdemir, Y.-X. Liu, H. Jing, X.-Y. Lü, Y.-L. Liu, L. Yang, and F. Nori, Giant nonlinearity via breaking parity-time symmetry: A route to low-threshold phonon diodes, Phys. Rev. B 92, 115407 (2015).

                [5] N. Yang, J. Zhang*, H. Wang, Y.-X. Liu, R.-B. Wu, L.-Q. Liu, C.-W. Li, and F. Nori, Noise suppression of on-chip mechanical resonators by chaotic coherent feedback, Phys. Rev. A 92, 033812 (2015).

                [6] C.-L. Zhu, N. Yang, Y.-X. Liu, F. Nori, and J. Zhang*, Entanglement distribution over quantum code-division multiple-access networks, Phys. Rev. A 92, 042327 (2015).

                [7] Y. L. Liu, Z. P. Liu and J. Zhang, Coherent-feedback-induced controllable optical bistability and photon blockade, J. Phys. B: At. Mol. Opt. Phys. 10, 105501 (2015).

                [8] H. Jing, S. K. Ozdemir, Z. Geng, J. Zhang, X.-Y. Lü, B. Peng, L. Yang, and F. Nori, Optomechanically-induced transparency in partiy-time-symmetric microresonators, Sci. Rep. 5, 9663 (2015).

                [9] X.-Y. Lü, Y. Wu, J. R. Johansson, H. Jing, J. Zhang, and F. Nori, Squeezed optomechanics with phase-matched amplification and dissipation, Phys. Rev. Lett. 114, 093602 (2015).

                [10] H. Wang, Z. X. Wang, J. Zhang, ?. K. ?zdemir, L. Yang, and Y.-X. Liu, Phonon amplification in two coupled cavities containing one mechanical resonator, Phys. Rev. A 90, 053814 (2014).

                [11] H. Jing, S.?K. ?zdemir, X.-Y. Lü, J. Zhang, L. Yang, and F. Nori, PT-Symmetric Phonon Laser, Phys. Rev. Lett. 113, 053604 (2014).

                [12] J. Zhang*, Y.-X. Liu, S. K. Ozdemir, R. B. Wu, F. F. Gao, X. B. Wang, L. Yang and F. Nori. Quantum internet using code division multiple access. Sci. Rep. 3, 2211 (2013) (Nature series journal).

                [13] J. Zhang*, Y.-X. Liu, R. B. Wu, K. Jacobs, and F. Nori. Non-Markovian quantum input-output networks. Physical Review A 87, 032117 (2013).

                [14] Z.-P. Liu, H. Wang, J. Zhang*, Y.-X. Liu, R.-B. Wu, C.-W. Li, and F. Nori. Feedback-induced nonlinearity and superconducting on-chip quantum optics. Physical Review A 88, 063851 (2013).

                [15] X.-W. Xu, H. Wang, J. Zhang, and Y.-X. Liu. Engineering of nonclassical motional states in optomechanical systems. Physical Review A 88, 063819 (2013).

                [16] R. B. Wu, T. F. Li, A. G. Kofman, J. Zhang, Yu-xi Liu, Yu. A. Pashkin, J.-S. Tsai, and Franco Nori. Spectral analysis and identification of noises in quantum systems. Physical Review A, 87: 022324 (2013).

                [17] J. Zhang*, R. B. Wu, Y.-X. Liu, C. W. Li, and T. J. Tarn. Quantum coherent nonlinear feedbacks with applications to quantum optics on chip. IEEE Transaction on Automatic Control, 57: 1997 (2012) (Regular paper).

                [18] J. Zhang*, R. B. Wu, L. Miao, Lei, N. Xi, C. W. Li, Y. C. Wang, and T. J. Tarn. Suppressing nano-scale stick-slip motion by feedback. J. Appl. Phys. 111: 054308 (2012).

                [19] S.-B. Xue, R.-B. Wu, W.-M. Zhang, J. Zhang and T.-J. Tarn. Coherent feedback control of non-Markovian open Boson systems via engineered quantum fields. Physical Review A, 86: 052304 (2012).

                [20] H. Wang, H. C. Sun, J. Zhang, and Y.-X. Liu. Transparency and amplification in a hybrid system of the mechanical resonator and circuit QED. SCIENCE CHINA-Physics, Mechanics & Astronomy, 55: 2264 (2012).

                [21] R. B. Wu, J. Zhang, C. W. Li, G. L. Long, and T. J. Tarn. Control problems in quantum systems. Chinese Science Bulletin, 57: 2194 (2012).

                [22] J. Zhang*, Y.-X. Liu, W. M. Zhang, L. A. Wu, R. B. Wu, and T. J. Tarn. Determinstic chaos can act as a decoherence suppressor. Physical. Review B, 84: 214304 (2011).

                [23] S. B. Xue, J. Zhang*, R. B. Wu, C. W. Li, and T.-J. Tarn. Quantum operation for a one-qubit system under a non-Markovian environment. Journal of Physics B: Atomic Molecular and Optical Physics, 44: 154016 (2011).

                [24] J. Zhang*, R.-B. Wu, C.-W. Li T.-J. Tarn. Protecting coherence and entanglement by quantum feedback controls. IEEE Transactions on Automation Control, 55: 619-633 (2010) (Regular Paper).

                [25] J. Zhang*, Y.-X. Liu, R.-B. Wu, C. W. Li, and T. J. Tarn. Transition from weak to strong measurements by nonlinear quantum feedback control. Physical. Review A, 82: 022101 (2010).

                [26] J. Zhang*, Y. X. Liu, and F. Nori, Cooling and squeezing the fluctuations of a nanomechanical beam by indirect quantum feedback control, Physical Review A, 79: 052102 (2009). (quant-ph/ 0902.2526)

                [27] J. Zhang*, Y. X. Liu, C. W. Li, T. J. Tarn, and F. Nori. Generating stationary entangled states in superconducting qubits. Physical Review A 79: 052308 (2009). (quant-ph/0808.0395)

                [28] J. Zhang*, R. B. Wu, C. W. Li, and T. J. Tarn. Using a squeezed field to protect two-atom entanglement against spontaneous emissions. Journal of Physics A: Mathematical and Theoretical, 42: 035304 (2009). (quant-ph/0807.0965)

                [29] J. Zhang*, C. W. Li, T. J. Tarn, J. W. Wu, Analytically solvable two-qubit entanglement monotone, Physical Review A, 76: 032306 (2007).

                [30] J. Zhang*, R. B. Wu, C. W. Li, T. J. Tarn, and J. W. Wu. Asymptotically noise decoupling for Markovian open quantum systems, Physical Review A, 75: 022324 (2007). (quant-ph/0701175)

                [31] J. W. Wu, C. W. Li, T. J. Tarn, and J. Zhang. Optimal BangBang control for SU(1,1) Coherent States. Physical. Review A, 76: 053403 (2007).

                [32] J. Zhang*, C.W. Li, R.B. Wu, T.J. Tarn, J.W. Wu. Quasi multipartite entanglement measure based on quadratic functions, Physical Review A, 73: 022319 (2006). (quant-ph/0512256)

                [33] J. Zhang*, C.W. Li. Decoherence suppression of two-level quantum systems based on coherent control, Control and Decision, 21: 508-512 (2006). (in Chinese)

                [34] J. W. Wu, C. W. Li, R. B. Wu, T. J. Tarn, and J. Zhang. Quantum control by decomposition of SU(1,1), Journal of Physics A: Mathematical and General, 39: 13531-13551 (2006).

                [35] J. Zhang*, C.W. Li, R.B. Wu, T.J. Tarn, X. S. Liu, Maximal suppression of decoherence in Markovian quantum systems, Journal of Physics A: Mathematical and General, 38: 6587-6601 (2005).

                [36] X.S. Liu, R.B. Wu, Y. Liu, J. Zhang and G.L. Long. Dynamical control of adiabatic decoherence in the single three-level atom, Journal of Optics B: Quantum and Semiclassical Optics, 7: 268-293 (2005).

                [37] J. Zhang*, C.W. Li, R.B. Wu, Coherent control modeling of quantum computers in open environment, ACTA AUTOMATICA SINICA, 31: 759-764 (2005). (in Chinese)

                [38]  J. Zhang*, C.W. Li, R.B. Wu, Output feedback control of quantum mechanical systems, Control and Decision, 20: 607-610, 615 (2005). (in Chinese)


                會議論文
                [1] H. Sun, J. Zhang*, R.-B. Wu, H. Rabitz, T.-J. Tarn. Optimal control protocols can be exponentially accelerated by quantum algorithms. IEEE Conference on Decision and Control, 2016.

                [2] N. Yang, J. Zhang, Z. P. Liu, C. W. Li, and T. J. Tarn. Cooling of optomechanical system by coherent feedback. Proceeding of the 11th World Congress on Intelligent Control and Automation (WCICA), pp. 2103-2107, Shenyang, China, 29 June-4 July 2014.

                [3] R. B. Wu, J. Zhang, Y. X. Liu, C. W. Li, and T. J. Tarn. Control of quantum mechanical systems - Recent works in Tsinghua University. Proceeding of the 11th World Congress on Intelligent Control and Automation (WCICA), pp. 1310-1317, Shenyang, China, 29 June-4 July 2014.

                [4] W. B. Dong, R. B. Wu, J. Zhang, C. W. Li, and T. J. Tarn. Quantum control model for spatial propagation of. electromagnetic fields in dielectrics. IEEE Conference on Decision and Control, 2013.

                [5] R.-B. Wu, J. Zhang, C. W. Li and T.-J. Tarn. Frequency-domain model of quantum control systems. IEEE Conference on Decision and Control, 2012.

                [6] J. Zhang, R. B. Wu, C. W. Li, and T. J. Tarn. Quantum chaotic communication. 10th World Congress on Intelligent Control and Automation, pp. 1854, 2012.

                [7] S. B. Xue, R. B. Wu, and J. Zhang. Coherent quantum feedback rejection of non-Markovian noises. 10th World Congress on Intelligent Control and Automation, pp. 2209, 2012.

                [8] J. Zhang and R. B. Wu. Coherent nonlinear quantum feedback with applications to on-chip quantum optics. 18th IFAC World Congress, Milan, 2011.

                [9] J. Zhang and R. B. Wu, Using chaotic device to suppress non-Markovian quantum noises, Proceedings of the 30th Chinese Control Conference, 2011, pp. 5346-5351, Yantai, China.

                [10] S. B. Xue, J. Zhang, R. B. Wu, C. W. Li, and T. J. Tarn, Quantum operation for one non-Markovian qubit via AC control, Proceedings of the 30th Chinese Control Conference, 2011, pp. 5352-5357, Yantai, China.

                [11] J. Zhang, L. Miao, R. B. Wu, N. Xi, C. W. Li, Y. C. Wang, and T. J. Tarn. Reducing stick-slip motion in one-dimensional nano manipulation by real-time feedback control. IEEE NANO 2010 Joint Symposium with NANO Korea, 2010/8/24.

                [12] J. Zhang, R. B. Wu, Y. X. Liu, C. W. Li, and T. J. Tarn. Quantum-feedback-control induced bifurcation and its application to qubit readout. 48th Control and Decision Conference (CDC), Shanghai China, 2009.

                [13] J. Zhang, R. B. Wu, C. W. Li, and T. J. Tarn. Bath-induced Control of Two-qubit Entanglement under Markovian Noises. 47th Control and Decision Conference (CDC), Cancun Mexico, 2008.

                [14] J. W. Wu, C. W. Li, J. Zhang, Energy optimal control for SU(1,1)-type two-input quantum systems, Proceedings of the 26th Chinese Control Conference, Zhangjiajie, China, 2007.

                [15] J. Zhang, C. W. Li, Noise decoupling decoherence suppression strategy for Markovian open quantum systems, Proceedings of the 25th Chinese Control Conference, Harbin, China, 2006.

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