English 清华大学 旧版入口 人才招聘

谢丹

  • 教授
  • 电话:
  • 邮箱:danxie@mail.tsinghua.edu.cn

基本信息

  1. 清华大学长聘教授。博士(Texas A&M 大学, 2011)


工作履历


2018.11–现在,清华大学长聘教授

2014.7–2018.7,美国哈佛大学,博士后

2011.09–2014.06,美国普林斯顿高等研究院,博士后


研究领域

研究方向为数学物理,主要研究超对称场论和超弦理论中各种物理和数学问题,近年来主要关注超对称场论和代数几何,低维拓扑,以及表示论的关系。

另一研究方向为机器学习的数学原理,以及物理方法在机器学习中的应用。


所授课程

课程: 量子力学 (2021,2022),量子场论 (2020),广义相对论 (2019)

            理科线性代数 (2019,2020)

            Introduction to W algebra (2019)

            机器学习的数学方法 (2020)


奖励与荣誉



学术成果

  1. [59] B. Li, D. Xie, and W. Yan, Superconformal indices of N = 4 Chern-Simons matter theories, arXiv:2305.0878.

  2. [58]  D. Xie, Pseudo-periodic map and classification of theories with eight supercharges, arXiv:2304.1366.

  3. [57]  B. Li, D. Xie, and W. Yan, “On low rank 4d N = 2 SCFTs,” arXiv:2212.03089 [hep-th].

  4. [56]  D. Xie, “On rank two theories with eight supercharges part I: local singularities,” arXiv:2212.02472 [hep-th].

  5. [55]  D. Xie, “Classification of rank one 5d N = 1 and 6d (1, 0) SCFTs,” arXiv:2210.17324 [hep-th].

  6. [54]  D. Xie, W. Yan, and S.-T. Yau, “Chiral algebra of the Argyres-Douglas theory from M5 branes,” Phys. Rev. D 103 (2021) no. 6, 065003, arXiv:1604.02155 [hep-th].

  7. [53]  D. Xie and W. Yan, “A study of N =1 SCFT derived from N =2 SCFT: index and chiral ring,” arXiv:2109.04090 [hep-th].

  8. [52]  D. Xie and D. Zhang, “Mixed Hodge structure and N = 2 Coulomb branch solution,”arXiv:2107.11180 [hep-th].

  9. [51]  D. Xie, “3d mirror for Argyres-Douglas theories,” arXiv:2107.05258 [hep-th].

  10. [50]  D. Xie and W. Yan, “4d N = 2 SCFTs and lisse W-algebras,” JHEP 04 (2021) 271, arXiv:1910.02281 [hep-th].

  11. [49]  D. Xie, “Soft supersymmetry breaking of 4d N = 2 SCFT,” arXiv:1905.00345 [hep-th].

  12. [48]  D. Xie and W. Yan, “Schur sector of Argyres-Douglas theory and W -algebra,” SciPost Phys. 10 (2021) no. 3, 080, arXiv:1904.09094 [hep-th].

  13. [47]  D. Xie and S.-T. Yau, “Singularity, Sasaki-Einstein manifold, Log del Pezzo surface and N = 1 AdS/CFT correspondence: Part I,” arXiv:1903.00150 [hep-th].

  14. [46]  D. Xie and W. Yan, “W algebras, cosets and VOAs for 4d N = 2 SCFTs from M5 branes,” JHEP 04 (2021) 076, arXiv:1902.02838 [hep-th].

  1. [45]  Y. Wang and D. Xie, “Codimension-two defects and Argyres-Douglas theories from outer-automorphism twist in 6d (2, 0) theories,” Phys. Rev. D 100 (2019) no. 2, 025001, arXiv:1805.08839 [hep-th].

  2. [44]  S. Li, D. Xie, and S.-T. Yau, “Seiberg–Witten Differential via Primitive Forms,” Commun. Math. Phys. 367 (2019) no. 1, 193–214, arXiv:1802.06751 [hep-th].

  3. [43]  T. C. Collins, D. Xie, and S.-T. Yau, “The deformed Hermitian-Yang-Mills equation in geometry and physics,” in Nigel Hitchin’s 70th Birthday Conference. 12, 2017. arXiv:1712.00893 [math.DG].

  4. [42]  B. Chen, D. Xie, S. S. T. Yau, S.-T. Yau, and H. Zuo, “4d N = 2 SCFT and singularity theory Part III: Rigid singularity,” Adv. Theor. Math. Phys. 22 (2018) 1885–1905, arXiv:1712.00464 [hep-th].

  5. [41]  D. Xie and K. Ye, “Argyres-Douglas matter and S-duality: Part II,” JHEP 03 (2018) 186, arXiv:1711.06684 [hep-th].

  6. [40]  D. Xie, “N = 2 SCFT with minimal flavor central charge,” arXiv:1712.03244 [hep-th].

  7. [39]  J. Song, D. Xie, and W. Yan, “Vertex operator algebras of Argyres-Douglas theories from M5-branes,” JHEP 12 (2017) 123, arXiv:1706.01607 [hep-th].

  8. [38]  D. Xie and S.-T. Yau, “Three dimensional canonical singularity and five dimensional N = 1 SCFT,” JHEP 06 (2017) 134, arXiv:1704.00799 [hep-th].

  9. [37]  D. Xie and S.-T. Yau, “Argyres-Douglas matter and N=2 dualities,” arXiv:1701.01123 [hep-th].

  10. [36]  T. C. Collins, D. Xie, and S.-T. Yau, “K stability and stability of chiral ring,” arXiv:1606.09260 [hep-th].

  11. [35]  Y. Wang, D. Xie, S. S. T. Yau, and S.-T. Yau, “4d N = 2 SCFT from complete intersection singularity,” Adv. Theor. Math. Phys. 21 (2017) 801–855, arXiv:1606.06306 [hep-th].

  12. [34]  B. Chen, D. Xie, S.-T. Yau, S. S. T. Yau, and H. Zuo, “4D N = 2 SCFT and singularity theory. Part II: complete intersection,” Adv. Theor. Math. Phys. 21 (2017) 121–145, arXiv:1604.07843 [hep-th].

  13. [33]  D. Xie and K. Yonekura, “Search for a Minimal N=1 Superconformal Field Theory in 4D,” Phys. Rev. Lett. 117 (2016) no. 1, 011604, arXiv:1602.04817 [hep-th].

  14. [32]  D. Xie and S.-T. Yau, “New N = 2 dualities,” arXiv:1602.03529 [hep-th].

  15. [31]  D. Xie and S.-T. Yau, “Semicontinuity of 4d N=2 spectrum under renormalization group flow,” JHEP 03 (2016) 094, arXiv:1510.06036 [hep-th].

  16. [30]  D. Xie and S.-T. Yau, “4d N=2 SCFT and singularity theory Part I: Classification,” arXiv:1510.01324 [hep-th].

  17. [29]  Y. Wang and D. Xie, “Classification of Argyres-Douglas theories from M5 branes,” Phys. Rev. D94 (2016) no. 6, 065012, arXiv:1509.00847 [hep-th].

  18. [28]  M. Del Zotto, C. Vafa, and D. Xie, “Geometric engineering, mirror symmetry and 6d(1,0) 4d(N=2),” JHEP 11 (2015) 123, arXiv:1504.08348 [hep-th].

  19. [27]  D. Xie, “N=1 Curve,” arXiv:1409.8306 [hep-th].

  20. [26]  D. Xie and K. Yonekura, “The moduli space of vacua of N = 2 class S theories,” JHEP 10 (2014) 134, arXiv:1404.7521 [hep-th].

  21. [25]  Y.-t. Huang, C. Wen, and D. Xie, “The Positive orthogonal Grassmannian and loop amplitudes of ABJM,” J. Phys. A47 (2014) no. 47, 474008, arXiv:1402.1479 [hep-th].

  22. [24]  D. Xie, “Aspects of line operators of class S theories,” arXiv:1312.3371 [hep-th].

  23. [23]  D. Xie, “Three dimensional Seiberg-like duality and tropical cluster algebra,” arXiv:1311.0889 [hep-th].

  1. [22]  D. Xie and K. Yonekura, “Generalized Hitchin system, Spectral curve and N = 1 dynamics,” JHEP 1401 (2014) 001, arXiv:1310.0467 [hep-th].

  2. [21]  D. Xie, “M5 brane and four dimensional N = 1 theories I,” JHEP 1404 (2014) 154, arXiv:1307.5877 [hep-th].

  3. [20]  D. Xie, “Higher laminations, webs and N=2 line operators,” arXiv:1304.2390 [hep-th].

  4. [19]  D. Xie and P. Zhao, “Central charges and RG flow of strongly-coupled N=2 theory,” JHEP 1303 (2013) 006, arXiv:1301.0210.

  5. [18]  D. Xie, “BPS spectrum, wall crossing and quantum dilogarithm identity,” Adv. Theor. Math. Phys. 20 (2016) 405–524, arXiv:1211.7071 [hep-th].

  6. [17]  J. J. Heckman, C. Vafa, D. Xie, and M. Yamazaki, “String Theory Origin of Bipartite SCFTs,” JHEP 1305 (2013) 148, arXiv:1211.4587 [hep-th].

  7. [16]  D. Xie, “Network, cluster coordinates and N = 2 theory II: Irregular singularity,” arXiv:1207.6112 [hep-th].

  8. [15]  D. Xie and M. Yamazaki, “Network and Seiberg Duality,” JHEP 1209 (2012) 036, arXiv:1207.0811 [hep-th].

  9. [14]  D. Xie, “General Argyres-Douglas Theory,” JHEP 1301 (2013) 100, arXiv:1204.2270 [hep-th].

  10. [13]  D. Xie, “Network, Cluster coordinates and N=2 theory I,” arXiv:1203.4573 [hep-th].

  11. [12]  D. Nanopoulos and D. Xie, “More Three Dimensional Mirror Pairs,” JHEP 1105 (2011) 071, arXiv:1011.1911 [hep-th].

  12. [11]  F. Benini, Y. Tachikawa, and D. Xie, “Mirrors of 3d Sicilian theories,” JHEP 1009 (2010) 063, arXiv:1007.0992 [hep-th].

  13. [10]  D. Nanopoulos and D. Xie, “N = 2 Generalized Superconformal Quiver Gauge Theory,” JHEP 1209 (2012) 127, arXiv:1006.3486 [hep-th].

  14. [9]  D. Nanopoulos and D. Xie, “Hitchin Equation, Irregular Singularity, and N = 2 Asymptotical Free Theories,” arXiv:1005.1350 [hep-th].

  15. [8]  D. Nanopoulos and D. Xie, “Hitchin Equation, Singularity, and N=2 Superconformal Field Theories,” JHEP 1003 (2010) 043, arXiv:0911.1990 [hep-th].

  16. [7]  D. V. Nanopoulos and D. Xie, “On Crossing Symmmetry and Modular Invariance in Conformal Field Theory and S Duality in Gauge Theory,” Phys.Rev. D80 (2009) 105015, arXiv:0908.4409 [hep-th].

  17. [6]  D. Nanopoulos and D. Xie, “N=2 SU Quiver with USP Ends or SU Ends with Antisymmetric Matter,” JHEP 0908 (2009) 108, arXiv:0907.1651 [hep-th].

  18. [5]  J. Jiang, T. Li, D. V. Nanopoulos, and D. Xie, “Flipped SU(5) x U(1)(X) Models from F-Theory,” Nucl.Phys. B830 (2010) 195–220, arXiv:0905.3394 [hep-th].

  19. [4]  T. Li, N. E. Mavromatos, D. V. Nanopoulos, and D. Xie, “Time Delays of Strings in D-particle Backgrounds and Vacuum Refractive Indices,” Phys.Lett. B679 (2009) 407–413, arXiv:0903.1303 [hep-th].

  20. [3]  J. Jiang, T. Li, D. V. Nanopoulos, and D. Xie, “F-SU(5),” Phys. Lett. B677 (2009) 322–325, arXiv:0811.2807 [hep-th].

  21. [2]  T. Li, Y. Liu, and D. Xie, “Multiple D2-Brane Action from M2-Branes,” Int.J.Mod.Phys. A24 (2009) 3039–3052, arXiv:0807.1183 [hep-th].

  22. [1]  D. V. Nanopoulos and D. Xie, “Supercriticality of a class of critical string cosmological solutions,” Phys.Rev. D78 (2008) 044038, arXiv:0710.2312 [hep-th].


人才培养

数学物理要求:量子场论及弦论基础,代数几何,复几何及表示论基础

机器学习要求: 概率统计及统计推断,信息理论,统计物理等