Mr. Lei Shi | Cosmology | Young Researcher Award

Associate Professor | Universite Le Havre Normandie | France

Mr. Lei Shi is an accomplished theoretical chemist whose work centers on quantum dynamics, molecular simulations, and the development of advanced computational frameworks for understanding fundamental processes in molecular physics. His research spans high-dimensional quantum simulations, atom surface scattering, hydrogen-bond dynamics in water clusters, and electron cation interactions relevant to cold plasma environments. He has contributed significantly to pushing the limits of realistic quantum simulations, notably achieving a landmark full-dimensional quantum dynamics study using an ab initio neural-network potential energy surface, enabling direct comparison with cutting-edge experimental data. His work integrates time-dependent quantum mechanical methods, machine-learning potential energy surfaces, and tensor decomposition techniques to explore complex dynamical behavior with exceptional accuracy. He has collaborated widely with leading groups in quantum dynamics, contributing to the refinement of potential energy surfaces, the implementation of multilayer multiconfiguration approaches, and the interpretation of spectroscopic signatures in molecular clusters. His publications highlight advances in canonical polyadic finite-basis representation, quantum and classical scattering dynamics, and quantum mechanical transport properties, earning recognition such as editor selections and journal cover features. His professional experience includes conducting and guiding computational research, mentoring doctoral researchers, and contributing to the molecular simulation community through active collaboration networks. Through his combined expertise in quantum theory, numerical modeling, and interdisciplinary scientific exchange, he has established himself as a rising scientist contributing impactful insights into molecular motion, energy transfer, and the quantum nature of matter.

Profiles: Orcid | Google Scholar

Featured Publications

Shi, L., Schröder, M., Meyer, H.-D., Peláez, D., Wodtke, A. M., Golibrzuch, K., Schönemann, A.-M., Kandratsenka, A., & Gatti, F. (2025). Full quantum dynamics study for H atom scattering from graphene. The Journal of Physical Chemistry A.

Bindech, O., Gatti, F., Mandal, S., Marquardt, R., Shi, L., & Tremblay, J. C. (2024). The mean square displacement of a ballistic quantum particle. Molecular Physics.

Shi, L., Schröder, M., Meyer, H.-D., Peláez, D., Wodtke, A. M., Golibrzuch, K., Schönemann, A.-M., Kandratsenka, A., & Gatti, F. (2024). Erratum: “Quantum and classical molecular dynamics for H atom scattering from graphene” [J. Chem. Phys. 159, 194102 (2023)]. The Journal of Chemical Physics.

Shi, L., Schröder, M., Meyer, H.-D., Peláez, D., Wodtke, A. M., Golibrzuch, K., Schönemann, A.-M., Kandratsenka, A., & Gatti, F. (2023). Quantum and classical molecular dynamics for H atom scattering from graphene. The Journal of Chemical Physics, 159, 194102.

Nadoveza, N., Panadés-Barrueta, R. L., Shi, L., Gatti, F., & Peláez, D. (2023). Analytical high-dimensional operators in canonical polyadic finite basis representation (CP-FBR). The Journal of Chemical Physics, 158, (publication date: 2023-03-21).

Dr. Sangeeta Prasher | Physics and Astronomy | Best Researcher Award

Associate Professor Kanya Mahavidyalaya India

Dr. Sangeeta Prasher is an accomplished researcher in the field of material sciences with a specialization in radiation effects on polymers and polymeric track detectors. With a career spanning over two decades, Dr. Prasher has contributed significantly to advancing scientific knowledge, earning over 594 citations for her work. Her academic journey and dedication to research have established her as a respected authority in her domain.

Profile

Google Scholar

Education 🎓

Dr. Sangeeta Prasher completed her higher education in material sciences, focusing on radiation-induced modifications in polymers. Her doctoral research laid the foundation for her expertise in radiation measurement and detector materials. She has since continued to expand her academic pursuits through various professional development courses.

Experience 🌍

With extensive experience as a faculty member, Dr. Prasher has not only excelled in research but also contributed to academic development. She has participated in and organized numerous faculty development programs, including UGC-sponsored courses and workshops. Her teaching and mentorship have inspired countless students to pursue research in material sciences.

Research Interests 🔬

Dr. Prasher’s research interests revolve around the effects of radiation on polymeric materials, detector development, and the application of X-ray techniques for material characterization. She is particularly focused on the structural and optical changes induced by gamma rays and heavy ion beams in polymers.

Awards 🏆

Dr. Prasher has been recognized for her exceptional contributions to material sciences. Her dedication and achievements have earned her accolades and nominations in various academic and scientific forums. Her work continues to inspire peers and students alike.