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{{short description|Method in quantum chemistry}}
{{orphan|date=November 2009}}

The '''ab initio multiple spawning''', or '''AIMS''', method is a time-dependent ] of ]. The '''ab initio multiple spawning''', or '''AIMS''', method is a time-dependent ] of ].


In AIMS, nuclear dynamics and electronic structure problems are solved simultaneously. Quantum mechanical effects in the nuclear dynamics are included, especially the ] which are crucial in modeling dynamics on multiple electronic states. In AIMS, nuclear dynamics and electronic structure problems are solved ]. ] in the nuclear dynamics are included, especially the ] which are crucial in modeling dynamics on multiple electronic states.

The AIMS method makes it possible to describe ] from first principles molecular dynamics, with no empirical parameters. The method has been applied to two molecules of interest in organic photochemistry - ] and ].


The photodynamics of ] involves both ] and ]ic electronic excited states and the return to the ground state proceeds through a pyramidalized geometry. For the photoinduced ring opening of cyclobutene, is it shown that the disrotatory motion predicted by the ] is established within the first 50 fs after optical excitation.
The AIMS method makes it possible to describe ] from first principles molecular dynamics, with no empirical parameters. The method has been applied to two molecules of interest in organic photochemistry—] and ].


The method was developed by chemistry professor ].
The photodynamics of ethylene involves both ] and ]ic electronic excited states and the return to the ground state proceeds through a pyramidalized geometry. For the photoinduced ring opening of cyclobutene, is it shown that the disrotatory motion predicted by the ] is established within the first 50 fs after optical excitation.


The method was developed by ].
==References== ==References==
* Ab Initio Multiple Spawning: Photochemistry from First Principles Quantum Molecular Dynamics, M. Ben-Nun, Jason Quenneville, and Todd J. Martínez, ''J. Phys. Chem. A'' '''104''' (2000), #22, pp. 5161–5175. DOI . * Ab Initio Multiple Spawning: Photochemistry from First Principles Quantum Molecular Dynamics, M. Ben-Nun, Jason Quenneville, and Todd J. Martínez, ''J. Phys. Chem. A'' '''104''' (2000), #22, pp. 5161–5175. DOI .
* Nonadiabatic molecular dynamics: Validation of the multiple spawning method for a multidimensional problem, M. Ben-Nun and Todd J. Martínez, ''Journal of Chemical Physics'' '''108''', #17 (May 1, 1998), pp. 7244–7257. DOI . * Nonadiabatic molecular dynamics: Validation of the multiple spawning method for a multidimensional problem, M. Ben-Nun and Todd J. Martínez, ''Journal of Chemical Physics'' '''108''', #17 (May 1, 1998), pp. 7244–7257. DOI .


{{DEFAULTSORT:Ab Initio Multiple Spawning}} {{DEFAULTSORT:Ab Initio Multiple Spawning}}
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{{physical-chemistry-stub}} {{quantum-chemistry-stub}}

Latest revision as of 21:47, 15 July 2022

Method in quantum chemistry

The ab initio multiple spawning, or AIMS, method is a time-dependent formulation of quantum chemistry.

In AIMS, nuclear dynamics and electronic structure problems are solved simultaneously. Quantum mechanical effects in the nuclear dynamics are included, especially the nonadiabatic effects which are crucial in modeling dynamics on multiple electronic states.

The AIMS method makes it possible to describe photochemistry from first principles molecular dynamics, with no empirical parameters. The method has been applied to two molecules of interest in organic photochemistry - ethylene and cyclobutene.

The photodynamics of ethylene involves both covalent and ionic electronic excited states and the return to the ground state proceeds through a pyramidalized geometry. For the photoinduced ring opening of cyclobutene, is it shown that the disrotatory motion predicted by the Woodward–Hoffmann rules is established within the first 50 fs after optical excitation.

The method was developed by chemistry professor Todd Martinez.

References

  • Ab Initio Multiple Spawning: Photochemistry from First Principles Quantum Molecular Dynamics, M. Ben-Nun, Jason Quenneville, and Todd J. Martínez, J. Phys. Chem. A 104 (2000), #22, pp. 5161–5175. DOI 10.1021/jp994174i.
  • Nonadiabatic molecular dynamics: Validation of the multiple spawning method for a multidimensional problem, M. Ben-Nun and Todd J. Martínez, Journal of Chemical Physics 108, #17 (May 1, 1998), pp. 7244–7257. DOI 10.1063/1.476142.


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