DCP-JCP Editors Choice

INVITED · MAR-M67 · ID: 2765753

Presentations

  • New Platforms for Polariton Reaction Dynamics

    ORAL · Invited

    Publication: 1. K. Schwennicke, A. Koner, J. B. Pérez-Sánchez, W. Xiong, N. C. Giebink, M. L. Weichman, and J. Yuen-Zhou. When do molecular polaritons behave like optical filters? arXiv 2408.05036 (2024).
    2. J. C. Nelson and M. L. Weichman. More than just smoke and mirrors: Gas-phase polaritons for optical control of chemistry. J. Chem. Phys. 161, 074304 (2024).
    3. L. Chen, A. P. Fidler, A. M. McKillop, and M. L. Weichman. Exploring the impact of vibrational cavity coupling strength on ultrafast CN + c-C6H12 reaction dynamics. Nanophotonics 13, 2591 (2024).
    4. A. D. Wright, J. C. Nelson, and M. L. Weichman. A versatile platform for gas-phase molecular polaritonics. J. Chem. Phys. 159, 164202 (2023).
    5. A. P. Fidler, L. Chen, A. M. McKillop, and M. L. Weichman. Ultrafast dynamics of CN radical reactions with chloroform solvent under vibrational strong coupling. J. Chem. Phys. 159, 164302 (2023).
    6. A. D. Wright, J. C. Nelson, and M. L. Weichman. Rovibrational polaritons in gas-phase methane. J. Am. Chem. Soc. 145, 5982 (2023).

    Presenters

    • Marissa Weichman

      Princeton University

    Authors

    • Marissa Weichman

      Princeton University

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  • Unveiling Material Determinants of Exciton Polariton Condensation: Coherent Dynamics Probed by Classical and Quantum Optical Methods

    ORAL · Invited

    Publication: [1] V. Quiros-Cordeno, E. Rojas-Gatjens, M. Gomez-Dominguez, H. Li, C. A. R. Perini, N. Stingelin, E. R. Bittner, J. Correa-Baena, A. R. Srimath Kandada, C. Silva-Acuna, Strong exciton-polariton correlations shape the many-body polariton dynamics in two-dimensional metal halide semiconductor microcavities: Competitive pathways for polariton condensation, ArXiv: 2404.14744 [cond-matr-mtrl-sci].
    [2] R. Malatesta, L. Uboldi, E. J. Kumar*, E. Rojas-Gatjens, L. Moretti, A. Cruz, V. Menon, G. Cerullo, A. R. Srimath Kandada||, Optical microcavities as platforms for entangled photon spectroscopy, ArXiv: 2309.04751[quant-ph].
    [3] L. Moretti, E. Rojas-Gatjens, L. Uboldi, D. O. Tiede, E. J. Kumar, C. Trovatello, F. Preda, A. Perri, C. Manzoni, G. Cerullo, A. R. Srimath Kandada, Measurement principles of quantum spectroscopy of molecular materials with entangled photons, Journal of Chemical Physics, 159, 084201 (2023).
    [4] E J Kumar, K A Koch, V Quiros-Cordero, J Brinson, R K Yadav, V Menon, and A R Srimath Kandada, The role of stimulated scattering in the picosecond formation dynamics of a Bose-Einstein condensate of molecular polaritons, Unpublished, in preparation.
    [5] E. R. Bittner, H. Li, A. Piryatinski, A. R. Srimath Kandada and C. Silva, Probing exciton/exciton interactions with entangled photons: Theory, J. Chem. Phys., 152, 071101 (2020).

    Presenters

    • Ajay Ram Srimath Kandada

      Wake Forest University

    Authors

    • Ajay Ram Srimath Kandada

      Wake Forest University

    • Evan J Kumar

      Wake Forest University

    • Esteban Rojas Gatjens

      Georgia Institute of Technology

    • Katherine A Koch

      Wake Forest University

    • Victoria Quiros Cordero

      Georgia Institute of Technology, Columbia University

    • Ravyn Malatesta

      Georgia Institute of Technology

    • Vinod Menon

      City College & Grad Center of CUNY, City College of New York

    • Eric R Bittner

      University of Houston

    • Carlos Silva

      Georgia Institute of Technology

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