个人简介
教育经历
2010.07 – 2014.02 新加坡国立大学量子科技研究中心,博士;导师:Prof. Berthold-Georg Englert
2008.08 – 2008.12 美国加州大学圣塔芭芭拉分校物理系,交流访问
2006.08 – 2010.06 新加坡国立大学物理系,理学学士(一等荣誉学位)
工作经历
2022.07 – 至今 北京理工大学物理学院,研究员/长聘副教授
2018.01 – 2022.06 北京理工大学物理学院,副研究员/预聘助理教授
2016.11 – 2017.12 德国锡根大学,博士后研究员;合作导师:Prof. Dr. Otfried Gühne
2014.02 – 2016.10 新加坡国立大学量子科技研究中心,博士后研究员;合作导师:Prof. Berthold-Georg Englert
近期论文
查看导师新发文章
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Y. Li and J. Shang, “Geometric mean of bipartite concurrences as a genuine multipartite entnaglement measure,” Phys. Rev. Research 4, 023059 (2022).
X. Yan, Y.-C. Liu, and J. Shang, “Operational detection of entanglement via quantum designs,” Ann. Phys. (Berlin) 534, 2100594 (2022).
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)
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).
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)
Y.-C. Liu, Y. Li, J. Shang, and X. Zhang, “Verification of arbitrary entangled states with homogeneous local measurements,” arXiv:2208.01083.
W. Li, R. Han, J. Shang, H. K. Ng, and B.-G. Englert, “Sequentially constrained Monte Carlo sampler for quantum states,” arXiv:2109.14215.
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)
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).
Z. Li, Y.-G. Han, H.-F. Sun, J. Shang, and H. Zhu, “Verification of phased Dicke states,” Phys. Rev. A 103, 022601 (2021).
Y.-C. Liu, J. Shang, X.-D. Yu, and X. Zhang, “Efficient verification of quantum processes,” Phys. Rev. A 101, 042315 (2020).
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).
X.-D. Yu, J. Shang, and O. Gühne, “Optimal verification of general bipartite pure states,” npj Quantum Inf. 5, 112 (2019).
Y.-C. Liu, X.-D. Yu, J. Shang, H. Zhu, and X. Zhang, “Efficient verification of Dicke states,” Phys. Rev. Applied 12, 044020 (2019).
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).
R. Uola, T. Kraft, J. Shang, X.-D. Yu, and O. Gühne, “Quantifying quantum resources with conic programming,” Phys. Rev. Lett. 122, 130404 (2019).
G. Sentís, J. N. Greiner, J. Shang, J. Siewert, and M. Kleinmann, “Bound entangled states fit for robust experimental verification,” Quantum 2, 113 (2018).
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)
J. Shang and O. Gühne, “Convex optimization over classes of multiparticle entanglement,” Phys. Rev. Lett. 120, 050506 (2018).
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).
J. Shang, Z. Zhang, and H. K. Ng, “Superfast maximum-likelihood reconstruction for quantum tomography,” Phys. Rev. A 95, 062336 (2017).
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