基本介紹
- 中文名:尚江偉
- 學位/學歷:博士
- 職業:教師
- 專業方向:量子信息和量子計算
- 任職院校:北京理工大學
個人經歷,研究方向,學術成果,
個人經歷
2022.07 – 至今 北京理工大學物理學院,研究員/長聘副教授
2018.01 – 2022.06 北京理工大學物理學院,副研究員/預聘助理教授
2016.11 – 2017.12 德國錫根大學,博士後研究員;合作導師:Prof. Dr. Otfried Gühne
2014.02 – 2016.10 新加坡國立大學量子科技研究中心,博士後研究員;合作導師:Prof. Berthold-Georg Englert
2010.07 – 2014.02 新加坡國立大學量子科技研究中心,博士;導師:Prof. Berthold-Georg Englert
2008.08 – 2008.12 美國加州大學聖塔芭芭拉分校物理系,交流訪問
2006.08 – 2010.06 新加坡國立大學物理系,理學學士(一等榮譽學位)
研究方向
量子信息和量子計算,主要包括量子層析、量子驗證、量子測量、量子糾纏的判定和度量、非局域關聯、算法的研究等。
學術成果
Google Scholar: https://scholar.google.com/citations?hl=en&user=Ur3D0GIAAAAJ
近期代表性論文:
[1] Y. Li and J. Shang, “Geometric mean of bipartite concurrences as a genuine multipartite entnaglement measure,” Phys. Rev. Research 4, 023059 (2022).
[2] X. Yan, Y.-C. Liu, and J. Shang, “Operational detection of entanglement via quantum designs,” Ann. Phys. (Berlin) 534, 2100594 (2022).
[3] X.-D. Yu, J. Shang, and O. Gühne, “Statistical methods for quantum state verification and fidelity estimation,” Adv. Quantum Technol. 5, 2100126 (2022). (Invited Review)
[4] Q. Zeng, J. Shang, H. C. Nguyen, and X. Zhang, “Reliable experimental certification of one-way Einstein-Podolsky-Rosen steering,” Phys. Rev. Research 4, 013151 (2022).
[5] R.-Q. Zhang, Z. Hou, J.-F. Tang, J. Shang, H. Zhu, G.-Y. Xiang, C.-F. Li, and G.-C. Guo, “Efficient experimental verification of quantum gates with local operations,” Phys. Rev. Lett. 128, 020502 (2022). (Editors' Suggestion)
[6] Y.-C. Liu, Y. Li, J. Shang, and X. Zhang, “Verification of arbitrary entangled states with homogeneous local measurements,” arXiv:2208.01083.
[7] W. Li, R. Han, J. Shang, H. K. Ng, and B.-G. Englert, “Sequentially constrained Monte Carlo sampler for quantum states,” arXiv:2109.14215.
[8] Y.-C. Liu, J. Shang, and X. Zhang, “Efficient verification of entangled continous-variable quantum states with local measurements,” Phys. Rev. Research 3, L042004 (2021). (Letter)
[9] Y.-C. Liu, J. Shang, R. Han, and X. Zhang, “Universally optimal verification of entangled states with nondemolition measurements,” Phys. Rev. Lett. 126, 090504 (2021).
[10] Z. Li, Y.-G. Han, H.-F. Sun, J. Shang, and H. Zhu, “Verification of phased Dicke states,” Phys. Rev. A 103, 022601 (2021).
[11] Y.-C. Liu, J. Shang, X.-D. Yu, and X. Zhang, “Efficient verification of quantum processes,” Phys. Rev. A 101, 042315 (2020).
[12] J.-F. Tang, Z. Hou, J. Shang, H. Zhu, G.-Y. Xiang, C.-F. Li, and G.-C. Guo, “Experimental optimal orienteering via parallel and antiparallel spins,” Phys. Rev. Lett. 124, 060502 (2020).
[13] X.-D. Yu, J. Shang, and O. Gühne, “Optimal verification of general bipartite pure states,” npj Quantum Inf. 5, 112 (2019).
[14] Y.-C. Liu, X.-D. Yu, J. Shang, H. Zhu, and X. Zhang, “Efficient verification of Dicke states,” Phys. Rev. Applied 12, 044020 (2019).
[15] J. Y. Sim, J. Shang, H. K. Ng, and B.-G. Englert, “Proper error bars for self-calibrating quantum tomography,” Phys. Rev. A 100, 022333 (2019).
[16] R. Uola, T. Kraft, J. Shang, X.-D. Yu, and O. Gühne, “Quantifying quantum resources with conic programming,” Phys. Rev. Lett. 122, 130404 (2019).
[17] G. Sentís, J. N. Greiner, J. Shang, J. Siewert, and M. Kleinmann, “Bound entangled states fit for robust experimental verification,” Quantum 2, 113 (2018).
[18] J. Shang, A. Asadian, H. Zhu, and O. Gühne, “Enhanced entanglement criterion via symmetric informationally complete measurements,” Phys. Rev. A 98, 022309 (2018). (Editors' Suggestion)
[19] J. Shang and O. Gühne, “Convex optimization over classes of multiparticle entanglement,” Phys. Rev. Lett. 120, 050506 (2018).
[20] Z. Hou, J.-F. Tang, J. Shang, H. Zhu, J. Li, Y. Yuan, K.-D. Wu, G.-Y. Xiang, C.-F. Li, and G.-C. Guo, “Deterministic realization of collective measurements via photonic quantum walks,” Nature Commun. 9, 1414 (2018).
[21] J. Shang, Z. Zhang, and H. K. Ng, “Superfast maximum-likelihood reconstruction for quantum tomography,” Phys. Rev. A 95, 062336 (2017).
