葛颢 - 北京大学 - 北京国际数学研究中心

个人简介

EDUCATION Sep 2004–Jul 2008 Ph.D. in Probability and Statistics.Peking University, Beijing, China.Thesis: “Applications of Stochastic Processes to Nonequilibrium Statistical Physics and Systems Biology”.Advisor: Prof. Min Qian. Sep 2000–Jul 2004 B.S. in Applied Mathematics.Peking University, Beijing, China. PROFESSIONAL APPOINTMENTS Aug 2022–present Professor (Tenured) Beijing International Center for Mathematical Research (BICMR), Peking University. Oct 2011–present Principle Investigator Biomedical Pioneering Innovation Center (BIOPIC), Peking University. Feb 2018–July 2022 Associate Professor (Tenured) Beijing International Center for Mathematical Research (BICMR), Peking University. Oct 2011–Jan 2018 Associate Professor (Tenure-track) Beijing International Center for Mathematical Research (BICMR), Peking University. Jan 2010–Sep 2011 Associate Professor School of Mathematical Sciences, Fudan University, Shanghai. Jul 2008–Dec 2009 Lecturer School of Mathematical Sciences, Fudan University, Shanghai. Sep 2010–Aug 2011 Visiting Scholar (Mentor: Prof. Xiaoliang S. Xie)Department of Chemistry and Chemical Biology, Harvard University, Cambridge, MA. ACADEMIC HONORS AND AWARDS 2022 The National Science Fund for Distinguished Young Scholars, National Natural Science Foundation of China. 2016 Young Scholar of Chang Jiang Scholars Program, Ministry of Education, China. 2016 Outstanding Youth Foundation, National Natural Science Foundation of China. 2010 National Excellent Doctoral Dissertations Award, Ministry of Education, China. 2009 Ninth Zhong Jiaqing Mathematical Award, Chinese Mathematical Society.

研究领域

主要是两个方向。一个是由统计物理或者单分子化学生物驱动的随机过程理论研究，着眼于发展数学的方法，强调数学的严格性，凸显数学证明和估计的难度；另一个是借助随机过程丰富的理论知识，为亚宏观尺度的生物物理化学过程提供合理的抽象数学模型和数学分析方法，在严格数学的水平上揭示深层次的逻辑关系，从而加深对生物物理化学现象的理解，发展出数学理论新的应用，并从中发现新的科学规律。

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Guo, X.L., Tang, T., Duan, M.X., Zhang, L.* and Ge, H.*: The Nonequilibrium Mechanism of Noise-Enhanced Drug Synergy in HIV Latency Reactivation. iScience 25，104358 (2022) (*co-corresponding authors) Ge, H., Jia, C. and Jin, X.: Martingale structure for general thermodynamic functionals of diffusion processes under second-order averaging. Journal of Statistical Physics 184:17 (2021) Peng, Y.L., Qian, H., Beard, D. and Ge, H.*: Universal Relation Between Thermodynamic Driving Force and One-Way Fluxes in a Nonequilibrium Chemical Reaction with Complex Mechanism. Physical Review Research 2, 033089 (2020) You, Z.Y., Li, L.Y., Lu, J.F. * and Ge, H. *: Integrated tempering enhanced sampling method as the infinite switching limit of simulated tempering. J. Chem. Phys. 149, 084114 (2018) (*co-corresponding authors) Gao, S., …, Ge, H. *, Qiao, J. * and Tang, F.C. *: Tracing the temporal-spatial transcriptome landscapes of the human fetal digestive tract using single-cell RNA-sequencing. Nat. Cell Biol. 20, 721–734 (2018) (*co-corresponding authors) Ge, H., Wu, P.P., Qian, H. and Xie, X.S.: Relatively slow stochastic gene-state switching in the presence of positive feedback significantly broadens the region of bimodality through stablizing the uninduced phenotypic state. Plos Comput. Biol. 14(3): e1006051 (2018) Ge, H. and Qian, H.: Mathematical Formalism of Nonequilibrium Thermodynamics for Nonlinear Chemical Reaction Systems with General Rate Law. J. Stat. Phys. 166:190–209 (2017) Ge, H., Jiang, D.Q. and Jia, C.: Cycle symmetry, limit theorems, and fluctuation theorems for diffusion processes on the circle. Stoc. Proc. Appl. 127: 1897–1925 (2017) Ge, H. and Qian, H.: Mesoscopic kinetic basis of macroscopic chemical thermodynamics: A mathematical theory. Phys. Rev. E 94, 052150 (2016) Zhao, Z.Q., Xie, X.S. and Ge, H.: Nonequilibrium Relaxation of Conformational Dynamics Facilitates Catalytic Reaction in an Elastic Network Model of T7 DNA Polymerase. J. Phys. Chem. B 120, 2869−2877 (2016) Ge, H., Qian, H. and Xie, X.S.: Stochastic phenotype transition of a single cell in an intermediate region of gene state switching. Phys. Rev. Lett. 114, 078101 (2015) Ge, H.: Mathematical laws of randomness. In Voices: Expanding the Biology Toolkit. Cell 163, 1306 (2015) Ge, H.: Time reversibility and nonequilibrium thermodynamics of second-order stochastic processes. Phys. Rev. E 89, 022127 (2014) Ge, H.: Stochastic Theory of Nonequilibrium Statistical Physics (review). Advances in Mathematics(China) 43, 161-174 (2014) Chong, S.S., Chen, C.Y., Ge, H. and Xie, X.S.: Mechanism of transcriptional bursting in bacteria. Cell 158, 314–326 (2014) Kim, S., Broströmer, E., Xing, D., Jin, J.S., Chong, S.S., Ge, H., Wang, S.Y., Gu, C., Yang, L., Gao, Y.Q., Su, X.D., Sun, Y.J. &Xie, X.S.: Probing allostery through DNA. Science 339 816 (2013) Xu, X.L.#, Ge, H. #, Gu, C., Gao, Y. Q., Wang, S.Y., Thio, B., Hynes, J., Xie, X.S. and Cao, J.S.: Modeling spatial correlation of DNA deformation: DNA allostery in protein binding. J. Phys. Chem. B 117, 13378−13387 (2013) (#co-first-authors) Ge, H., Qian, M. and Qian, H.: Stochastic theory of nonequilibrium steady states. Part II: Applications in chemical biophysics. Phys. Rep. 510, 87-118 (2012) Ge, H., Pressé, S., Ghosh, K. and Dill, K.: Markov processes follow from the principle of maximum caliber. J. Chem. Phys. 136, 064108 (2012) (Research highlighted) Ge, H.: Multivariable fluctuation theorems in the steady-state cycle kinetics of single enzyme with competing substrates. J. Phys. A: Math. Theor. 45 215002 (2012) (Research highlighted) Ge, H. and Qian, H.: The physical origins of entropy production, free energy dissipation and their mathematical representations. Phys. Rev. E 81 051133 (2010) Ge, H.: Extended forms of the second law for general time-dependent stochastic processes. Phys. Rev. E 80 021137 (2009) Ge, H. and Qian, H.: Thermodynamic limit of a nonequilibrium steady state: Maxwell-type construction for a bistable biochemical system. Phys. Rev. Lett. 103, 148103 (2009) Ge, H.: Waiting cycle times and generalized Haldane equality in the steady-state cycle kinetics of single enzymes. J. Phys. Chem. B 112 61-70 (2008) Ge, H. and Jiang, D.Q.: Generalized Jarzynski’s equality of multidimensional inhomogeneous diffusion processes. J. Stat. Phys. 131 675–689 (2008)

学术兼职

ACADEMICACTIVITIESANDSERVICESMemberoftheTeachingCommittee2018-presentBeijingInternationalCenterforMathematicalResearchandSchoolofMathematicalSciences,PekingUniversity MemberoftheAdmissionCommittee2013-presentBeijingInternationalCenterforMathematicalResearchPekingUniversity MemberoftheDegreeCommittee2013-2017BeijingInternationalCenterforMathematicalResearchandSchoolofMathematicalSciences,PekingUniversity OrganizerofthelectureseriesnamedApr2015-present“OneHourofMathematicalResearchatPekingUniversity”Co-organizerof“WorkshoponNonequilibriumThermodynamicsNov2016andStatisticalMechanics”BeijingInternationalCenterforMathematicalResearchCo-organizerof“InternationalWorkshoponInterdisciplinaryResearchJul2016betweenMathematicsandBiologyprocesses”BeijingInternationalCenterforMathematicalResearchLocalcoordinatoroftheProgram“NonequilibriumProcessesatJul2016theNanoscale”KavliInstituteofTheoreticalPhysicsinChina Co-organizerof“WorkshoponStochasticProcessesDec2015anditsApplicationsinPhysicsandBiology”BeijingInternationalCenterforMathematicalResearch LocalcoordinatoroftheProgram“SmallSystemNonequilibriumJul2013Fluctuations,DynamicsandStochastics,andAnomalousBehavior”KavliInstituteofTheoreticalPhysicsinChina Co-organizerof“YoungMathematicianForum”Jun2013BeijingInternationalCenterforMathematicalResearch