Add to ORKGAfter photoexcitation, molecules can follow many different paths for electronic relaxation. Of these paths, electronic transitions between states of different spin-multiplicities, intersystem crossings, have largely been ignored in many systems because of their spin-forbidden nature, but recent work has shown that intersystem crossings can occur at short times and compete with other relaxation pathways. Understanding these complicated excited state processes requires both advanced excited state dynamics algorithms and excited state electronic structure. In the first part of the work presented here, we investigate a variety of inexpensive, mixed quantum-classical approaches for nonadiabatic dynamics. We find that modern approaches have made ...
We present an algorithm for efficient calculation of analytic nonadiabatic derivative couplings betw...
By utilizing the time-independent semiclassical phase integral, we obtained modified coupled time-de...
In this work, a direct mixed quantum-classical dynamics approach is presented, which combines two ne...
After photoexcitation, molecules can follow many different paths for electronic relaxation. Of these...
After photoexcitation, molecules can follow many different paths for electronic relaxation. Of these...
We have recently shown how high-accuracy wavefunction grid-based propagation schemes, such as the mu...
International audienceIn this article, we review nonadiabatic molecular dynamics (NAMD) methods for ...
International audienceIn this article, we review nonadiabatic molecular dynamics (NAMD) methods for ...
Many chemical reactions exhibit nonadiabatic effects as a consequence of coupling between electronic...
A method for computing coupled, diabatic state representations of the lowest electronic states coupl...
Many chemical reactions exhibit nonadiabatic effects as a consequence of coupling between electronic...
Electronically photoexcited dynamics are complicated because there are so many different relaxation ...
The question of how to describe the crossing of molecular electronic states is one of the most chall...
Chemical relaxation phenomena, including photochemistry and electron transfer processes, form a vigo...
A procedure for the calculation of spin–orbit coupling (SOC) at the delta self-consistent field (ΔSC...
We present an algorithm for efficient calculation of analytic nonadiabatic derivative couplings betw...
By utilizing the time-independent semiclassical phase integral, we obtained modified coupled time-de...
In this work, a direct mixed quantum-classical dynamics approach is presented, which combines two ne...
After photoexcitation, molecules can follow many different paths for electronic relaxation. Of these...
After photoexcitation, molecules can follow many different paths for electronic relaxation. Of these...
We have recently shown how high-accuracy wavefunction grid-based propagation schemes, such as the mu...
International audienceIn this article, we review nonadiabatic molecular dynamics (NAMD) methods for ...
International audienceIn this article, we review nonadiabatic molecular dynamics (NAMD) methods for ...
Many chemical reactions exhibit nonadiabatic effects as a consequence of coupling between electronic...
A method for computing coupled, diabatic state representations of the lowest electronic states coupl...
Many chemical reactions exhibit nonadiabatic effects as a consequence of coupling between electronic...
Electronically photoexcited dynamics are complicated because there are so many different relaxation ...
The question of how to describe the crossing of molecular electronic states is one of the most chall...
Chemical relaxation phenomena, including photochemistry and electron transfer processes, form a vigo...
A procedure for the calculation of spin–orbit coupling (SOC) at the delta self-consistent field (ΔSC...
We present an algorithm for efficient calculation of analytic nonadiabatic derivative couplings betw...
By utilizing the time-independent semiclassical phase integral, we obtained modified coupled time-de...
In this work, a direct mixed quantum-classical dynamics approach is presented, which combines two ne...