## Biography

- 2022
- Assistant Professor, University of Notre Dame
- 2017-2022
- Postdoctoral Researcher, University of Pennsylvania
- 2016
- Ph.D. in Chemical Physics, Columbia University
- 2010
- M.S. in Physics, National Taiwan University
- 2006
- B.S. in Mathematics and Physics, National Taiwan University

### Selected Awards

- 2016
- Sackler Postdoctoral Fellow, Tel Aviv University
- 2013-2014
- Columbia-Upjohn Fellow
- 2010
- Student Thesis Award, Taiwan Physical Society

## Research Interests

The Chen research group is broadly interested in the intersection of chemistry, physics, and materials. Research in the Chen group focuses on developing theoretical tools and using high performance computing facilities aimed at excited-state dynamics and light-matter interactions. The systems studied range from plasmonic excitation of metallic clusters, laser-driven non-adiabatic molecular dynamics, and collective optical response of molecular ensembles. These systems are of key importance for understanding many recent experimental advances that cannot be accurately predicted by current theoretical approaches.

Our focus is quantifying electron transfer and energy conversion processes at the interface between molecules and materials strongly interacting with light. We are particularly interested in non-adiabatic dynamics methods (specifically surface hopping) and many-body quantum simulation (for example, quantum Monte Carlo). Our major goal is to develop reliable theoretical models and simulation methods to guide experimental improvements in next-generation photovoltaic cells and facilitate new design principles for electronic nano-devices.

## Recent Publications

- Bian, X. Z., Wu, Y. Z., Teh, H. H., Zhou, Z. Y., Chen, H. T., Subotnik, J. E. "Modeling nonadiabatic dynamics with degenerate electronic states, intersystem crossing, and spin separation: A key goal for chemical physics" 2021
*Journal of Chemical Physics*, 154 (11), 110901. DOI:10.1063/5.0039371. - Liu, J. J., Chen, H. T., Segal, D. "Quantum nondemolition photon counting with a hybrid electromechanical probe" 2020
*Physical Review A*, 102 (6), 061501. DOI:10.1103/PhysRevA.102.061501. - Chen, H. T., Zhou, Z. Y., Subotnik, J. E. "On the proper derivation of the Floquet-based quantum classical Liouville equation and surface hopping describing a molecule or material subject to an external field" 2020
*Journal of Chemical Physics*, 153 (4), 044116. DOI:10.1063/5.0013873. - Li, T. E., Chen, H. T., Nitzan, A., Subotnik, J. E. "Quasiclassical modeling of cavity quantum electrodynamics" 2020
*Physical Review A*, 101 (3), 033831. DOI:10.1103/PhysRevA.101.033831. - Zhou, Z. Y., Chen, H. T., Nitzan, A., Subotnik, J. E. "Nonadiabatic Dynamics in a Laser Field: Using Floquet Fewest Switches Surface Hopping To Calculate Electronic Populations for Slow Nuclear Velocities" 2020
*Journal of Chemical Theory and Computation*, 16 (2), pp. 821-834. DOI:10.1021/acs.jctc.9b00950. - Li, T. E., Chen, H. T., Nitzan, A., Subotnik, J. E. "Understanding the nature of mean-field semiclassical light-matter dynamics: An investigation of energy transfer, electron-electron correlations, external driving, and long-time detailed balance" 2019
*Physical Review A*, 100 (6), 062509. DOI:10.1103/PhysRevA.100.062509.