Theoretical advances in polariton chemistry and molecular cavity quantum electrodynamics
When molecules are coupled to an optical cavity, new light–matter hybrid states, so-called
polaritons, are formed due to quantum light–matter interactions. With the experimental …
polaritons, are formed due to quantum light–matter interactions. With the experimental …
Coherence in Chemistry: Foundations and Frontiers
Coherence refers to correlations in waves. Because matter has a wave-particle nature, it is
unsurprising that coherence has deep connections with the most contemporary issues in …
unsurprising that coherence has deep connections with the most contemporary issues in …
[HTML][HTML] A multi-state mapping approach to surface hopping
JE Runeson, DE Manolopoulos - The Journal of Chemical Physics, 2023 - pubs.aip.org
We describe a multiple electronic state adaptation of the mapping approach to surface
hopping introduced recently by Mannouch and Richardson [J. Chem. Phys. 158, 104111 …
hopping introduced recently by Mannouch and Richardson [J. Chem. Phys. 158, 104111 …
A mapping approach to surface hopping
JR Mannouch, JO Richardson - The Journal of Chemical Physics, 2023 - pubs.aip.org
We present a nonadiabatic classical-trajectory approach that offers the best of both worlds
between fewest-switches surface hopping (FSSH) and quasiclassical mapping dynamics …
between fewest-switches surface hopping (FSSH) and quasiclassical mapping dynamics …
How quantum is the resonance behavior in vibrational polariton chemistry?
Recent experiments in polariton chemistry have demonstrated that reaction rates can be
modified by vibrational strong coupling to an optical cavity mode. Importantly, this …
modified by vibrational strong coupling to an optical cavity mode. Importantly, this …
[HTML][HTML] Detailed balance in mixed quantum–classical mapping approaches
The violation of detailed balance poses a serious problem for the majority of current
quasiclassical methods for simulating nonadiabatic dynamics. In order to analyze the …
quasiclassical methods for simulating nonadiabatic dynamics. In order to analyze the …
Exciton dynamics from the mapping approach to surface hopping: comparison with Förster and Redfield theories
We compare the recently introduced multi-state mapping approach to surface hopping
(MASH) with the Förster and Redfield theories of excitation energy transfer. Whereas Förster …
(MASH) with the Förster and Redfield theories of excitation energy transfer. Whereas Förster …
[HTML][HTML] Quasiclassical approaches to the generalized quantum master equation
The formalism of the generalized quantum master equation (GQME) is an effective tool to
simultaneously increase the accuracy and the efficiency of quasiclassical trajectory methods …
simultaneously increase the accuracy and the efficiency of quasiclassical trajectory methods …
[HTML][HTML] On detailed balance in nonadiabatic dynamics: From spin spheres to equilibrium ellipsoids
Trajectory-based methods that propagate classical nuclei on multiple quantum electronic
states are often used to simulate nonadiabatic processes in the condensed phase. A long …
states are often used to simulate nonadiabatic processes in the condensed phase. A long …
Seeking a quantum advantage with trapped-ion quantum simulations of condensed-phase chemical dynamics
Simulating the quantum dynamics of molecules in the condensed phase represents a
longstanding challenge in chemistry. Trapped-ion quantum systems may serve as a platform …
longstanding challenge in chemistry. Trapped-ion quantum systems may serve as a platform …