Curriculum Vitae工作履历2023 – Now, Associate Professor, 东南大学丘成桐中心及物理学院; 2018 – 2022, Associate Professor, 东南大学丘成桐中心及数学学院; 2018 – 2018, Visiting scholar, Center of Mathematical Sciences and Applications, Harvard University; 2015 – 2018, Post-doctor, Yau Mathematical Sciences Center, 清华大学。 教育履历2010 – 2015, Doctoral degree, 中国人民大学物理系; 2006 – 2010, Bachelor's degree, 武汉大学物理学院。 ResearchMy research field is to study quantum gravity through the holographic principle. This field lies at the intersection between many different aspects of theoretical physics, including quantum information, statistical physics, quantum field theory and gravity, and belongs to the large community of string theory. My collaborators and I have focused on the holographic theory of general space-times, we extended our understanding of the holographic principle beyond the AdS space-time, and discovered new holographic relation between entanglement and geometry, leading a new research direction. Another research direction of mine is the study of the partial entanglement entropy, which describes how much a subset of a region contributes to the entanglement entropy of that region. It has been applied to the study of both holography and condense matter theories by several groups of researchers abroad. In the context of partial entanglement entropy, I defined the balanced partial entanglement entropy, which gives the entanglement wedge cross-section and generalizes the reflected entropy to generic purifications. I am also interested in the island formula, both from the holographic and quantum information perspective. Honors and Awards主持项目自然科学基金委青年基金,“一般全息理论下的纠缠熵研究”,22万,2019/1/1-2020/12/31。 奖励与荣誉2020,东南大学至善青年学者A类 2017,ICCM(世界华人数学家联盟)最佳论文奖-若琳奖 2017,清华大学优秀博士后 2014,博士研究生国家奖学金 2010,中国大学生物理学术竞赛一等奖 TeachingCourse:
Student Supervised:
山东大学曼彻斯特大学联合培养, 2017-2021,Bachelor degree; 东南大学丘中心访问学生, 2021-2022; 爱丁堡大学硕士生,2022至今
浙江理工大学学士学位(2022),2022至今丘中心及物理学院硕士生
武汉大学学士学位(2023),2022年东南大学丘中心访问学生 PublicationsPublications: See also: https://inspirehep.net/authors/1275750?ui-citation-summary=true
17. Entanglement Islands from Hilbert Space Reduction Debarshi Basu, Qiang Wen, Shangjie Zhou, Arxiv: 2211.17004, 29 pages. 16. Covariant entanglement wedge cross-section, balanced partial entanglement and gravitational anomalies Qiang Wen, Haocheng Zhong, SciPost Physics 13 (2022) 3, 056 38 pages. 15. Balanced Partial Entanglement and Mixed State Correlations Hugo Camargo, Pratik Nandy, Qiang Wen, Haocheng Zhong, Scipost Physics (2022), 34 pages. 14. Entanglement entropies from entanglement contour: higher dimensions Muxin Han and Qiang Wen, Scipost Physics Core 5 (2022) 020, 34 pages. 13. First law and quantum correction for holographic entanglement contour Muxin Han and Qiang Wen, Scipost Physics (2021), 22 pages. 12. Balanced Partial Entanglement and the Entanglement Wedge Cross Section Qiang Wen, JHEP (2021), 30 pages. 11. Formulas for Partial Entanglement Entropy Qiang Wen, Phys.Rev.Research. (2020), 10 pages. 10. Entanglement contour and modular flow from subset entanglement entropies Qiang Wen, JHEP 05(2020)018, 22 pages. 9. Towards the generalized gravitational entropy for spacetimes with non-Lorentz invariant duals Qiang Wen, JHEP1901 (2019) 220, 41 pages. 8. Fine structure in holographic entanglement and entanglement contour Qiang Wen, Phys.Rev.D 98 (2018), 21 pages. 7. Entanglement Entropy in Flat Holography Hongliang Jiang, Wei Song and Qiang Wen, JHEP 07(2017)142, 48 pages. 6. Modifications to Holographic Entanglement Entropy in Warped CFT Wei Song, Qiang Wen and Jianfei Xu, JHEP 1702 (2017) 067, 39 pages. 5. Generalized Gravitational Entropy for Warped Anti-de Sitter Space Wei Song, Qiang Wen and Jianfei Xu, Phys.Rev.Lett. 117 (2016), 6+3 pages. 4. The Non-integrable Mass and the Scalar Charge Qiang Wen, arXiv:1501.02829, 11 pages. 3. Strategy to Construct Exact Solutions in Einstein-Scalar Gravities Qiang Wen, Phys.Rev.D 92 (2015), 15 pages. 2. Thermodynamics of AdS Black Holes in Einstein-Scalar Gravity Hong Lu, C. N. Pope and Qiang Wen, JHEP 1503 (2015) 165, 34 pages. 1. Scalar Hairy Black Holes in General Dimensions Xing-Hui Feng, Hong Lu and Qiang Wen, Phys.Rev.D 89 (2014), 11 pages. Selected Seminars: 13. 北京大学Peking University, 2022年5月13日, “Balanced partial entanglement and mixed state correlations” 12. Asia-Pacific Center for Theoretical Physics, Korea, 2021年8月5日, “Aspects on Partial Entanglement Entropy” 11. University of Science and Technology of China, 2021年7月15日, “Aspects on Partial Entanglement Entropy” 10. 国科大卡夫里理论科学研究所, 2020年12月22日, “Partial entanglement, modular flow and the minimal cross section” 9. 清华大学丘成桐数学科学中心, 2020年9月17日, “Foundations on Partial entanglement entropy” 8. 中国科学院理论物理研究所(ITP), 2019年3月20日, 4月3日, “Aspects on entanglement contour 1,2: in quantum information theories and the holographic picture” 7. Renmin University, 2018年11月21日, “Colloquium: An introduction for holographic entanglement” 6. Brandeis University, 2018年4月9日, “Holography entanglement in 3d flat holography” 5. 清华大学丘成桐数学科学中心(YMSC), 2018年3月29日, “AdS seminar: Fine structure in holographic entanglement” 4. 清华大学高等研究院(IAS Tsinghua), 2018年3月23日, “Holography entanglement for general spacetimes” 3. Harvard University, Center of Mathematical Sciences and Applications, 2018年1月29日, “Holography entanglement in general spacetimes” 2. Fudan University, 2017年6月7日, “Holography entanglement in flat holography” 1. 中科院理论物理研究所(ITP), 2015年12月3日,“Black hole complementarity and firewalls!”
Invited Talks at Conferences: 9. Frontiers of Holographic Duality-4,Steklov Mathematical Institute, Moscow(线上),2022年12月12–16; 8. 第九届ICCM 45分钟邀请报告,南京市紫金山庄,2022年7月31日至8月5日; 7. 中国物理学会秋季会议, 兰州大学(线上), 2021年10月; 6. 引力、量子场论及其内在联系研讨会, 天津大学, 2021年7月3日-4日; 5. 第二届“弦论,场论及全息理论前沿暑期学校”, 东南大学丘成桐中心, 2021年8月16日-21日, 主要组织人; 4. “HoloChina 2021”, 上海大学 2021年6月25日-27日; 3. 第一届全国“场论与弦论”学术研讨会,中国科学技术大学,2020年11月26日; 2. 第一届“弦论,场论及全息理论前沿暑期学校”,东南大学丘成桐中心,2020年8月24日-29日,主要组织人并授课 1. 清华大学,Tsinghua Summer Workshop in Geometry and Physics 2017,2017年8月 |