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Optimization Schemes for Selective Molecular Cleavage with Tailored Ultrashort Laser Pulses

We present some approaches to the computation of ultra-fast laser pulses capable of selectively breaking molecular bonds. The calculations are based on a mixed quantum-classical description: The electrons are treated quantum mechanically (making use of time-dependent density-functional theory), whereas the nuclei are treated classically. The temporal shape of the pulses is tailored to maximise a control target functional which is designed to produce the desired molecular cleavage. The precise definition of this functional is a crucial ingredient: we explore expressions based on the forces, on the momenta and on the velocities of the nuclei. The algorithm used to find the optimum pulse is also relevant; we test both direct gradient-free algorithms, as well as schemes based on formal optimal control theory. The tests are performed both on one dimensional models of atomic chains, and on first-principles descriptions of molecules.

preprint2011arXivOpen access
Kevin KriegerAlberto CastroE. K. U. Gross
physics.atm-clusphysics.chem-ph
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Kevin KriegerAlberto CastroE. K. U. Gross

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