生云鹤

基本信息

性别：男

职称：教授

所在系别：基础数学系

是否博导：是

联系方式

办公地点：吉林大学中心校区，伍卓群楼525

办公电话：0431-85160000

电子邮箱：shengyh@jlu.edu.cn

研究方向

Poisson几何、高阶李理论与数学物理

讲授课程

本科生课程：空间解析几何、微分几何、微分流形
研究生课程：微分流形、黎曼几何、李群与李代数

教育经历

2004.09-2008.12, 北京大学数学学院博士
2007.12-2008.11, Math. Dep. Utrecht Uni. Netherlands, joint Ph. D
2000.09-2004.07, 吉林大学数学学院本科

工作经历

2008.12-2009.07, CRC, Goettingen Uni. Post doctor
2009.01-2011.01, 大连理工大学数学学院博士后
2009.06-2011.08, 吉林大学数学学院副教授
2008.07.01-2008.07.12, Conference Poisson 2008, Bernnoulli Center, EPFL, Lausanne, Switzerland.
2010.07.02-2010.08.19, ANU, visiting scholar, Austrilia
2010.09.12-2010.09.19, Geometry and Physics VIII, Scalea, Italy
2012.06.27-2012.08.07, Goettingen Uni. visiting scholar, Germany
2012.07.22-2012.08.03, Conference Poisson 2012, Utrecht Uni., Holland
2013.06.21-2013.07.31, Goettingen Uni. visiting scholar, Germany
2013.06.25-2013.06.28, Conference Higher algebras and Lie-infinity homotopy theory, Luxembourg Uni., Luxembourg
2013.07.22-2013.07.26, Conference in honor of Alan Weinstein, Bernnoulli Center, EPFL, Lausanne, Switzerland.
2014.07.05-2014.07.24, Goettingen Uni. visiting scholar, Germany
2014.11.26-2014.12.10, Goettingen Uni. visiting scholar, Germany
2014.11.30-2014.12.06, Conference ;Algebra, deformation and quantum groups;, CIRM, France
2015.04.30-2015.05.16, Goettingen Uni. visiting scholar, Germany
2015.05.10-2015.05.15, Conference ”Geometry of Jets and Fields”, Bedlewo, Banach Center, Poland
2015.07.12-2015.08.07, Penn State University, visiting scholar, US
2016.06.21-2016.07.23, University of Haute Alsace, visiting scholar, Mulhouse, France
2016.07.03-2016.07.09, Poisson 2016, Zurich,Switzerland.
2016.07.09-2016.07.17, Goettingen Uni. visiting scholar, Germany
2016.07.17-2016.07.21, Geneva Uni., visiting scholar,Switzerland.
2016.12.13-2017.12.12, Penn State University, visiting scholar, US
2011.09-至今吉林大学数学学院教授

科研项目

[1]博士后基金(20090451267，Courant代数胚的可积性) 2009.09-2011.01 负责人
[2]数学天元基金（11026046，高阶李理论）2011.01-2011.12 负责人
[3]博士点新教师基金（20100061120096，高阶李理论）2011.01-2013.12 负责人
[4]国家自然科学基金青年基金（11101179，Poisson几何与高阶李理论）2012.01-2014.12 负责人
[5]吉林省青年基金(20140520054JH，Courant代数胚与高阶结构) 2014.01-2016.12 负责人
[6]国家自然科学基金面上项目(11471139，Poisson几何、高阶结构及其在数学物理中的应用) 2015.01-2018.12 负责人
[7]吉林省自然科学基金（20170101050JC，Courant代数胚及其在数学物理中的应用） 2017.01-2019.12 负责人
[8]国家自然科学基金优秀青年基金（11922110，数学物理） 2020.01-2022.12 负责人
[9]国家自然科学基金面上项目（12471060，泊松几何与Rota-Baxter代数），2025.01-2028.12 负责人
[10]国家自然科学基金 (国际(地区)合作与交流项目) （W2412041，非结合代数结构及其应用）2025.01-2027.12 负责人
[11]吉林省杰出青年基金（20260101013JJ，泊松几何、罗巴代数及其应用)2026.01-2028.12

代表性成果

[1] Y. Sheng, Linear Poisson structures on $\mathbb{R}^4$, J. Geom. Phys. 5 (2007), 2398-2410.
[2] Q. Lin, Z. Liu and Y. Sheng, Quadratic deformations of Lie-Poisson structures on $\mathbb{R}^3$, Lett. Math. Phys. 83 (2008), 217-229.
[3] Z. Chen, Z. Liu and Y. Sheng, E-Courant algebroids, Int. Math. Res. Not. (2010) No. 22, 4334-4376.
[4] Y. Sheng, Z. Liu and C. Zhu, Omni-Lie 2-algebras and their Dirac structures, J. Geom. Phys. 61(2011), 560-575.
[5] Y. Bi and Y. Sheng, On higher analogues of Courant algebroids, Sci. China Math. 54 (2011), No. 3, 437-447.
[6] S. Chen, Y. Sheng and Z. Zheng, Non-abelian Extensions of Lie 2-algebras, Sci. China Math. 55(2012), No. 8, 1655-1668.
[7] Y. Sheng and C. Zhu, Integration of Lie 2-algebras and their morphisms, Lett. Math. Phys. 102(2012), No. 2, 223-244.
[8] Y. Sheng, Representations of hom-Lie algebras, Algebr. Represent. Theory 15 (2012), No. 6, 1081-1098.
[9] Y. Sheng and D. Chen, Hom-Lie 2-algebras, J. Algebra 376 (2013), 174-195.
[10] C. Bai, Y. Sheng and C. Zhu, Lie 2-bialgebras, Comm. Math. Phys. 320 (2013), 149-172.
[11] Y. Sheng and C. Bai, A new approach to hom-Lie bialgebras, J. Algebra 399 (2014), 232-250.
[12] Z. Liu, Y. Sheng and T. Zhang, Deformations of Lie 2-algebras, J. Geom. Phys. 86 (2014), 66-80.
[13] Zhangju Liu, Yunhe Sheng, Xiaomeng Xu, The first Pontryagin class for Pre-Courant Algebroids, J. Geom. Phys. 104 (2016), 148-162.
[14] H. Lang, Y. Sheng and X. Xu, Strong homotopy Lie algebras, homotopy Poisson manifolds and Courant algebroids, Lett. Math. Phys. 107 (2017), No. 5, 861-885.
[15] L. Cai, J. Liu and Y. Sheng, Hom-Lie algebroids, Hom-Lie bialgebroids and Hom-Courant algebroids, J. Geom. Phys. 121 (2017), 15-32.
[16] J. Liu, Y. Sheng and C. Bai, Pre-symplectic algebroids and their applications, Lett. Math. Phys. 108(2018), No. 3, 779-804.
[17] Y. Sheng and R. Tang, Symplectic, product and complex structures on 3-Lie algebras, J. Algebra508 (2018), 256-300.
[18] Y. Sheng, The first Pontryagin class of a quadratic Lie 2-algebroid, Comm. Math. Phys. 362 (2018), No. 2, 689-716.
[19] L. Cai and Y. Sheng, Purely Hom-Lie bialgebras, Sci. China Math. 61 (2018), No. 9, 1553-1566.
[20] C. Bai, L. Guo and Y. Sheng, Bialgebras, the classical Yang-Baxter equation and Manin triples for 3-Lie algebras, Adv. Theor. Math. Phys. 23 (2019), No. 1, 27-74.
[21] R. Tang, C. Bai, L. Guo and Y. Sheng, Deformations and their controlling cohomologies of $\mathcal{O}$-operators, Comm. Math. Phys. 368 (2019), 665-700.
[22] J. Liu, C. Bai and Y. Sheng, Compatible O-operators on bimodules over associative algebras, J. Algebra 532 (2019), 80-118.
[23] R. Tang, Y. Frégier and Y. Sheng, Cohomologies of a Lie algebra with a derivation and applications, J. Algebra 534 (2019), 65-99.
[24] R. Tang and Y. Sheng, Cohomological characterizations of non-abelian extensions of strict Lie 2-algebras, J. Geom. Phys. 144 (2019), 294-307.
[25] J. Liu and Y. Sheng, QP-structures of degree 3 and CLWX 2-algebroids, J. Symplectic Geom. 17(2019), No. 6, 1853-1891.
[26] J. Liu, C. Bai and Y. Sheng, Noncommutative Poisson bialgebras, J. Algebra 556 (2020), 35-66.
[27] J. Liu, Y. Sheng and C. Bai, $F$-manifold algebras and deformation quantization via pre-Lie algebras, J. Algebra 559 (2020), 467-495.
[28] R. Tang, S. Hou and Y. Sheng, Lie $3$-algebras and deformations of relative Rota-Baxter operators on 3-Lie algebras, J. Algebra 567 (2021), 37-62.
[29] J. Liu and Y. Sheng, Homotopy Poisson algebras, Maurer-Cartan elements and Dirac structures of CLWX 2-algebroids, J. Noncommutative Geom. 15 (2021), No. 1, 147-193.
[30] A. Lazarev, Y. Sheng and R. Tang, Deformations and homotopy theory of relative Rota-Baxter Lie algebras, Comm. Math. Phys. 383 (2021), 595-631.
[31] Y. Sheng, X. Xu and C. Zhu, String principal bundles and Courant algebroids, Int. Math. Res. Not. IMRN 2021, No. 7, 5290-5348.
[32] S. Hou, Y. Sheng and R. Tang, Twilled 3-Lie algebras, generalized matched pairs of 3-Lie algebras and $\mathcal{O}$-operators, J. Geom. Phys. 163 (2021), 104148, 1-15.
[33] L. Guo, H. Lang and Y. Sheng, Integration and geometrization of Rota-Baxter Lie algebras, Adv. Math. 387 (2021), 107834.
[34] Y. Sheng, R. Tang and C. Zhu, The controlling $L_\infty$-algebras, cohomologies and homotopy of embedding tensors and Lie-Leibniz triples, Comm. Math. Phys. 386 (2021), 269-304.
[35] J. Liu and Y. Sheng, Cohomologies of PoiMod pairs and compatible structures on Poisson algebras, J. Geom. Phys. 173 (2022), 104449.
[36] J. Jiang and Y. Sheng, Representations and cohomologies of relative Rota-Baxter Lie algebras and applications, J. Algebra 602 (2022), 637-670.
[37] R. Tang and Y. Sheng, Leibniz bialgebras, relative Rota-Baxter operators and the classical Leibniz Yang-Baxter equation, J. Noncommut. Geom. 16 (2022), No. 4, 1179-1211.
[38] J. Jiang and Y. Sheng, Deformations, cohomologies and integrations of relative difference Lie algebras, J. Algebra 614 (2023), 535-563.
[39] H. Lang and Y. Sheng, Factorizable Lie bialgebras, quadratic Rota-Baxter Lie algebras and Rota-Baxter Lie bialgebras, Comm. Math. Phys. 397 (2023), 763-791.
[40] S. Hou, Y. Sheng and Y. Zhou, 3-post-Lie algebras and relative Rota-Baxter operators of nonzero weights on $3$-Lie algebras, J. Algebra 615 (2023), 103-129.
[41] R. Tang and Y. Sheng, Nonabelian embedding tensors, Lett. Math. Phys. 113 (2023), 14.
[42] R. Tang, C. Bai, L. Guo and Y. Sheng, Homotopy Rota-Baxter operators and post-Lie algebras, J. Noncommut. Geom. 17 (2023), No. 1, 1-35.
[43] A. Lazarev, Y. Sheng and R. Tang, Homotopy relative Rota-Baxter Lie algebras, triangular $L_\infty$-bialgebras and higher derived brackets, Trans. Amer. Math. Soc. 376 (2023), 2921-2945.
[44] J. Liu, Y. Sheng and C. Bai, Maurer-Cartan characterizations and cohomologies of compatible Lie algebras, Sci. China Math. 66 (2023), No. 6, 1177-1198.
[45] Y. Sheng and Y. Wang, Quasi-triangular and factorizable antisymmetric infinitesimal bialgebras, J. Algebra 628 (2023), 415-433.
[46] Y. Pei, Y. Sheng, R. Tang and K. Zhao, Actions of monoidal categories and representations of Cartan type Lie algebras, J. Inst. Math. Jussieu 22 (2023), No. 5, 2367-2402.
[47] C. Bai, L. Guo, Y. Sheng and R. Tang, Post-groups, (Lie-)Butcher groups and the Yang-Baxter equation, Math. Ann. 388 (2024), No. 3, 3127-3167.
[48] J. Jiang, Y. Sheng and C. Zhu, Lie theory and cohomology of relative Rota-Baxter operators, J. London Math. Soc. 109 (2024), No. 2, e12863.
[49] J. Jiang, Y. Li and Y. Sheng, Cohomologies of difference Lie groups and Van Est Theorem, J. Algebra 645 (2024), 116-142.
[50] Y. Wang, C. Bai, J. Liu and Y. Sheng, Quasi-triangular, factorizable pre-Lie bialgebras and Rota-Baxter pre-Lie algebras, J. Geom. Phys. 199 (2024), 105146.
[51] Y. Li, Y. Sheng and R. Tang, Post-Hopf algebras, relative Rota-Baxter operators and solutions of the Yang-Baxter equation, J. Noncommut. Geom. 18 (2024), No. 2, 605-630.
[52] R. Tang, N. Xu and Y. Sheng, Symplectic structure, product structures and complex structures on Leibniz algebras, J. Algebra 647 (2024), 710-743.
[53] S. Hou, Y. Sheng and Y. Zhou, Deformations, cohomologies and abelian extensions of compatible $3$-Lie algebras, J. Geom. Phys. 202 (2024), 105218.
[54] Y. Sheng, R. Tang and F. Wagemann, From relative Rota-Baxter operators and relative averaging operators on Lie algebras to relative Rota-Baxter operators on Leibniz algebras: a uniform approach, Mathematical Research Letters 31 (5) (2024), 1551-1594.
[55] J. Jiang and Y. Sheng, Deformations of modified r-matrices and cohomologies of related algebraic structures, J. Noncommut. Geom. 19 (2025), no. 2, pp. 429-450.
[56] N. Xu and Y. Sheng, Leibniz 2-algebras, linear 2-racks and the Zamolodchikov Tetrahedron equation, J. Geom. Phys. 218 (2025), 105683.
[57] S. Hou and Y. Sheng, Averaging Lie bialgebras, J. Algebra, 689 (2026), 390-422.
[58] M. Goncharov, P. Kolesnikov, Y. Sheng and R. Tang, Formal integration of complete Rota-Baxter Lie algebras and Magnus expansion, Selecta Math. 32 (2026), 20.
[59] N. Xu and Y. Sheng, Operator approaches to the reflection equation, J. Geom. Phys. 225 (2026), 105832.
[60] J. Chuang, A. Lazarev, Y. Sheng and R. Tang, Cohomology of Lie coalgebras, J. Noncommut. Geom. (2026), doi:10.4171/JNCG/653

奖励与荣誉

[1]2025年吉林大学孙正聿教育教学改革奖
[2]2024年中国一汽奖教金
[3]2024年吉林大学本科“课堂教学质量奖”卓越奖
[4]2023年吉林省突出贡献奖
[5]2023年国家级教学成果奖二等奖（参加）
[6]2022年吉林省教学成果奖特等奖（参加）
[7]2022年 “第一届中国科技青年论坛”三等奖
[8]2021年第十六届吉林省青年科技奖
[9]2020年吉林省政府津贴
[10]2014年吉林省自然科学学术成果奖二等奖
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