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Personal information
Name: Maxim Gelin (Maksim Helin inpassport)
Office: Room509, 2nd Building Middle, Hangzhou Dianzi Campus, Xiasha,Hangzhou
Current occupation: School of Sciences,Hangzhou Dianzi University
Telephone: (86) - 152 - 67136347
E-Mail: maxim@hdu.edu.cn
EDUCATION
Sep. 1983-July 1988, M.S. in Physics,Department of Theoretical Physics, Belarus State University, Minsk,Belarus
Dec. 1995, Ph. D in theoretical optics,Institute of Molecular and Atomic Physics, Minsk, Belarus.
Professional Working Experience
2019-present, Professor, School ofSciences, Hangzhou Dianzi University, Hangzhou, P. R. China
2008-2019. Research Scientist,Technical University of Munich, Geramny.
2004-2007. Research Scientist,University of Maryland, College Park, USA.
2002-2003. Humboldt Fellow, TechnicalUniversity of Munich, Germany
1988-2002. Junior & Senior ResearchAssociate, Institute of Physics & Institute of Molecular andAtomic Physics, Minsk, Belarus
RESEARCH INTEREST
1)Theoreticalfemtosecond nonlinear optical spectroscopy
2)Theoreticalrotational coherence spectroscopy
3)Nonequilibriumstatistical mechanics
4)Rotationaland orientational relaxation
5)Photodissociationof polyatomic molecules, vector correlations
Selected Publications
1. Gelin, M. F.; Chen, L.; Borrelli,R.; Thyrhaug*, E. (2020): Generalized Huang-Rhys factors formolecular aggregates. https://doi.org/10.1016/j.chemphys.2019.110495
2. Gelin*, M. F.; Borrelli, R; Domcke,W. (2019): Origin of Unexpectedly Simple Oscillatory Responses in theExcited-State Dynamics of Disordered Molecular Aggregates. J. Phys.Chem. Lett. 10, 2806-2810.
3. Gelin*, M. F.; Borrelli, R.(2017):Thermal Schrodinger Equation: Efficient Tool for Simulation ofMany-Body Quantum Dynamics at Finite Temperature. Ann. Phys.(Berlin), 1700200.
4. Gelin*, M. F., Egorova, D. andDomcke, W. (2011): Strong and Long Makes Short: Strong-PumpStrong-Probe Spectroscopy. J. Phys. Chem. Lett. 2, 114–119.
5. Gelin*, M. F., Egorova, D. andDomcke, W (2009): Efficient Calculation of Time- andFrequency-Resolved Four-Wave-Mixing Signals. Acc. Chem. Res. 42,1290-1298..
SUPPORTING FUNDING
1) Ultrafast dynamics study of singlet fission in organic molecularmaterials, No. 11874125, Year: 2019 to 2022, National Natural ScienceFoundation of China, P. R. China.
2) Excellence Initiative for cutting-edge research in Germanuniversities. Munich Center for Advanced Photonics (MAP),https://www.munich-photonics.de/en/. Worked in the Research Area C.2(Molecular dynamics and elementary chemical reactions, years2008-2011) and in the Research Area B.2 (Molecular processes, years2012-2018). Budget approximately 4.6 billion EURO until 2018 (for allexcellence universities together). Completed. Position: a member ofthe theory group.
3) Funding agency: Federal Ministry of Education and Research ofGermany. Joint German-Singapore project, “Understanding howefficient ultrafast energy transfer works in photosynthetic systemsusing coherent multidimensional optical spectroscopy”. Duration:April 2014 – December 2017. Budget: 57K EURO. Completed. Position:PI.
Patents Granted