更新时间:2024-09-21 17:29
王浩华,男,湖北宜昌人。1999年,南开大学物理科学学院学士,2006年,美国宾夕法利亚州州立大学物理学博士。浙江大学物理系教授。2017年5月3日,王浩华团队研究出了世界首台超越早期经典计算机的单光子量子计算机。
2022年9月,荣获2022年科学探索奖。
1999年,南开大学物理系学士;
2006年,美国宾夕法利亚州州立大学物理学博士;
2007年-2010年,加利福尼亚大学圣塔芭芭拉分校博士后;
2010年8月至今,浙江大学物理系教授;
共发表Nature(5篇),Science(2篇),Nature Physics(3篇,含已接收),PRL(8篇,含已接收),以及其它科学论文近30篇。近年来所参与的有关超导量子计算的工作受到各科技新闻媒体的广泛关注,并被 Physics Today 作封面报道,特别是其中的一项工作被 AAAS Science 选为2010年所有科学类研究中“Breakthrough of the year”。
中国科学技术大学潘建伟教授及其同事陆朝阳、朱晓波等,联合浙江大学王浩华教授研究组,在基于光子和超导体系的量子计算机研究方面取得了系列突破性进展。2017年5月3日,该研究团队在上海正式发布了这一系列研究成果。在光学体系,研究团队在去年首次实现十光子纠缠操纵的基础上,利用高品质量子点单光子源构建了世界首台超越早期经典计算机的单光子量子计算机。
超导量子计算与量子模拟(年份: 2010,2009,2008,2007)
2010
Wirebond crosstalk and cavity modes in large chip mounts for superconducting Qubits J. Wenner, M. Neeley, Radoslaw C. Bialczak, M. Lenander, Erik Lucero, A. D. O’Connell, D. sank, H. Wang, M. Weides, A. N. Cleland, John M Martinis Submitted to Superconductor Science and Technology \u003c!--, --\u003e(2010). arXiv:1011.4982 Deterministic Entanglement of photons in two superconducting microwave resonators H. Wang, Matteo Mariantoni, Radoslaw C. Bialczak, M. Lenander, Erik Lucero, M. Neeley, A. D. O’Connell, D. Sank, M. Weides, J. Wenner, T. Yamamoto, Y. Yin, J. Zhao, John M. Martinis, A. N. Cleland Accepted to PRL \u003c!--, --\u003e(2010). arXiv:1011.2862 Photon shell game in three-resonator circuit quantum electrodynamics Matteo Mariantoni, H. Wang, Radoslaw C. Bialczak, M. Lenander, Erik Lucero, M. Neeley, A. D. O’Connell, D. Sank, M. Weides, J. Wenner, T. Yamamoto, Y. Yin, J. Zhao, John M. Martinis, A. N. Cleland \u003c!---, --\u003e(2010). arXiv:1011.3080 Fast tunable coupler for superconducting qubits R. C. Bialczak, M. Ansmann, M. Hofheinz, M. Lenander, E. Lucero, M. Neeley, A. D. O’Connell, D. Sank, H. Wang, M. Weides, J. Wenner, T. Yamamoto, A. N. Cleland, J. M. Martinis Accepted to PRL \u003c!--, --\u003e(2010). arXiv:1007.2219 Quantum process tomography of two-qubit controlled-Z and controlled-NOT gates using superconducting phase qubits T. YAMAMOTO, M. Neeley, E. Lucero, R. C. Bialczak, J. Kelly, M. Lenander, Matteo Mariantoni, A. D. O’Connell, D. Sank, H. Wang, M. Weides, J. Wenner, Y. Yin, A. N. Cleland, John M. Martinis PRB 82, 184515 (2010). PRB | arXiv:1006.5084 Reduced phase error through optimized control of a superconducting qubit Erik Lucero, Julian Kelly, Radoslaw C. Bilaczak, Mike Lenander, Matteo Mariantoni, Matthew Neeley, A. D. O’Connell, Daniel Sank, H. Wang, Martin Weides, James Wenner, Tsuyoshi YAMAMOTO, A. N. Cleland, John M. Martinis PRA 82, 042339 (2010). PRA | arXiv:1007.1690 Generation of Three-Qubit Entangled States using Superconducting Phase Qubits Matthew Neeley, Radoslaw C. Bialczak, M. Lenander, E. Lucero, Matteo Mariantoni, A. D. O’Connell, D. Sank, H. Wang, M. Weides, J. Wenner, Y. Yin, T. Yamamoto, A. N. Cleland, John M. Martinis Nature 467, 570-573 (2010). Nature| arXiv:1004.4246 | Nature News in Focus Quantum Process Tomography of a Universal Entangling Gate Implemented with Josephson Phase Qubits R. C. Bialczak, M. Ansmann, M. Hofheinz, E. Lucero, M. Neeley, A. D. O’Connell, D. Sank, H. Wang, J. Wenner, M. Steffen, A. N. Cleland, J. M. Martinis Nature Physics 6, 409-413 (2010). Nature Physics | arXiv:0910.1118 Quantum ground state and single-phonon control of a mechanical resonator A. D. O’Connell, M. Hofheinz, M. Ansmann, Radoslaw C. Bialczak, M. Lenander, Erik Lucero, M. Neeley, D. Sank, H. Wang, M. Weides, J. Wenner, John M. Martinis, A. N. Cleland Nature 464, 697-703 (2010). Nature | Nature writeup | NPR | 英国广播公司 | Science Breakthrough of the Year
2009
Decoherence 动力学 of Complex Photon States in a Superconducting Circuit H. Wang, M. Hofheinz, M. Ansmann, R. C. Bialczak, Erik Lucero, M. Neeley, A. D. O’Connell, D. Sank, M. Weides, J. Wenner, A. N. Cleland, John M. Martinis PRL 103, 200404 (2009). PRL | arXiv:0909.4585 Improving the Coherence Time of Superconducting Coplanar Resonators H. Wang, M. Hofheinz, J. Wenner, M. Ansmann, R. C. Bialczak, M. Lenander, E. Lucero, M. Neeley, A. D. O’Connell, D. Sank, M. Weides, A. N. Cleland, John M. Martinis APL 95, 233508 (2009). APL | arXiv:0909.0547 Violation of Bell's inequality in Josephson phase qubits Markus Ansmann, H. Wang, Radoslaw C. Bialczak, Max Hofheinz, Erik Lucero, M. Neeley, A. D. O’Connell, D. Sank, M. Weides, J. Wenner, A. N. Cleland, John M. Martinis Nature 461, 504-506 (2009). Nature | writeup in ScienceNews Emulation of a Quantum Spin with a Superconducting Phase Qudit Matthew Neeley, Markus Ansmann, Radoslaw C. Bialczak, Max Hofheinz, Erik Lucero, Aaron D. O’Connell, Daniel Sank, H. Wang, James Wenner, Andrew N. Cleland, Michael R. Geller, John M. Martinis Science 325, 722 (2009). Science Synthesizing arbitrary quantum states in a superconducting resonator Max Hofheinz, H. Wang, M. Ansmann, Radoslaw C. Bialczak, Erik Lucero, M. Neeley, A. D. O’Connell, D. Sank, J. Wenner, John M. Martinis, A. N. Cleland Nature 459, 546-549 (2009). Nature | News and Views Josephson phase qubit circuit for the evaluation of advanced tunnel barrier materials Jeffrey S. Kline, H. Wang, Seongshik Oh, John M. Martinis and David P. Pappas Superconductor Science and Technology 22, 015004 (2009). SST
2008
Measurement of the decay of Fock states in a superconducting quantum circuit H. Wang, M. Hofheinz, M. Ansmann, R. C. Bialczak, E. Lucero, M. Neeley, A. D. O’Connell, D. Sank, J. Wenner, A. N. Cleland and John M. Martinis PRL 101, 240401 (2008). PRL | arXiv:0808.3279 | Viewpoint Generation of Fock states in a superconducting quantum circuit Max Hofheinz, E. M. Weig, M. Ansmann, Radoslaw C. Bialczak, Erik Lucero, M. Neeley, A. D. O’Connell, H. Wang, John M. Martinis and A. N. Cleland Nature 454, 310-314 (2008). Nature Reversal of the Weak Measurement of a Quantum State in a Superconducting Phase Qubit Nadav Katz, Matthew Neeley, M. Ansmann, Radoslaw C. Bialczak, M. Hofheinz, Erik Lucero, A. O’Connell, H. Wang, A. N. Cleland, John M. Martinis and Alexander N. Korotkov PRL 101, 200401 (2008). PRL | arxiv:0806.3547 | Viewpoint Process tomography of quantum memory in a Josephson-phase qubit coupled to a two-level state Matthew Neeley, M. Ansmann, Radoslaw C. Bialczak, M. Hofheinz, N. Katz, Erik Lucero, A. O’Connell, H. Wang, A. N. Cleland \u0026 John M. Martinis Nature Physics 4, 523-526 (2008). Nature Physics Microwave Dielectric Loss at Single Photon Energies and milliKelvin 温度s Aaron D. O’Connell, M. Ansmann, R. C. Bialczak, M. Hofheinz, N. Katz, Erik Lucero, C. McKenney, M. Neeley, H. Wang, E. M. Weig, A. N. Cleland, and J. M. Martinis APL 92, 112903 (2008). APL | arXiv:0802.2404 Hi-Fi CAMP gates in a Josephson qubit Erik Lucero, M. Hofheinz, M. Ansmann, Radoslaw C. Bialczak, N. Katz, Matthew Neeley, A. D. O’Connell, H. Wang, A. N. Cleland, and John M. Martinis Phys. Rev. Lett. 100, 247001 (2008). PRL | arXiv:0802.0903 Transformed Dissipation in Superconducting Quantum Circuits Matthew Neeley, M. Ansmann, Radoslaw C. Bialczak, M. Hofheinz, N. Katz, Erik Lucero, A. D. O’Connell, H. Wang, A. N. Cleland, and John M. Martinis Phys. Rev. B 77, 180508(R) (2008). PRB | arXiv:0801.2994
2007
1/f Flux Noise in Josephson Phase Qubits Radoslaw C. Bialczak, R. McDermott, M. Ansmann, M. Hofheinz, N. Katz, Erik Lucero, Matthew Neeley, A. D. O’Connell, H. Wang, A. N. Cleland, and John M. Martinis Phys. REV Lett. 99, 187006 (2007). PRL | arXiv:0708.2125
Ultrathin, Doubly Connected Superconducting Cylinders: A link between One- and Two-dimensional Superconductors Y. Liu, H. Wang, Yu. Zadorozhny, M. M. Rosario, B. Y. Rock, N. A. Kurz, and P. T. Carrigan Physica C 468, 331-336 (2008). Observation of a Possible Metallic State Induced by a Parallel Magnetic Field in Superconducting Au0.7In0.3 Samples with Very Low Normal-state Sheet Resistance M. M. Rosario, H. Wang, Yu. Zadorozhny, and Y. Liu Journal of Low Temperature Physics, 147, 623-631 (2007). Lithography-free Fabrication of Graphene Devices N. Staley, H. Wang, C. Puls, J. Forster, T. N. Jackson, K. McCarthy, B. Clouser, and Y. Liu Appl. Phys. Lett. 90, 143518 (2007). Observation of Double Resistance Anomalies and Excessive Resistance in Mesoscopic Superconducting Au0.7In0.3 Rings with Phase Separation H. Wang, M. M. Rosario, H. L. Russell, and Y. Liu Phys. Rev. B 75, 064509 (2007). Destructive Regime and Quantum Phase Transition in Doubly Connected Superconducting Cylinders H. Wang, N.A. Kurz, and Y. Liu AIP Conference Proceedings 850, 961 (2006). Possible Observation of Phase Separation Near a Quantum Phase Transition in Doubly Connected Ultrathin Superconducting Cylinders of Aluminum H. Wang, M.M. Rosario, N.A. Kurz, B.Y. Rock, M. Tian, P.T. Carrigan, and Y. Liu Phys. Rev. Lett. 95, 197003 (2005). Metallic Contacts with Individual Ru Nanowires Prepared by Electrochemical Deposition and the Suppression of Superconductivity in Ultrasmall Ru Grains H. Wang, J. Wang, M. Tian, L. Bell, E. Hutchinson, M. M. Rosario, Y. Liu, A. Amma, and T. Mallouk Appl. Phys. Lett. 84, 5171 (2004). Superconducting Fluctuations in the Destructive Regime of Ultrathin, Superconducting Cylinders M.M. Rosario, Yu. Zadorozhny, B.Y. Rock, P.T. Carrigan, H. Wang, and Y. Liu Physica B 329-333, 1415-1416 (2003). Superconducting Fluctuations in the Destructive Regime of Ultrathin, Superconducting Cylinders Y. Liu, Yu. Zadorozhny, M. M. Rosario, B. Y. Rock, P. T. Carrigan, and H. Wang Science 294, 2332 (2001).
Analysis of the Influence of Thermal Effect on Z-Scan Measurements with a Nanosecond Pulse Laser J.G. Tian, H.H. Wang, W.Y. Zhou, T. Li, C.P. Zhang and G.Y. Zhang Chin. Phys. Lett. 17, 510 (2000).
2022年9月,荣获2022年科学探索奖。
首位90后获奖人诞生!2022年“科学探索奖”名单公布.澎湃新闻.2022-09-15