Alexander Borowski scite author profile

A five-dimensional reaction surface-vibronic coupling model is introduced to describe the B- to C-state predissociation dynamics of Br(2) occupying a double substitutional lattice site in a face-centered cubic argon crystal at low temperatures. The quantum dynamics driven by a Franck-Condon vertical excitation is investigated, revealing the role of matrix cage compression for efficient nonadiabatic transitions. Vibrational preexcitation of the Br(2) bond in the electronic ground state can be used to access a different regime of predissociation which does not require substantial matrix compression because the Franck-Condon window shifts into the energetic range of the B-C level crossing. Using optimal control theory, it is shown how vibrational preexcitation can be achieved via a pump-dump-type mechanism involving the repulsive C state.

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Alexander Borowski

Tailoring model Hamiltonians for dihalogen—rare gas matrix problems

Coherence and control of molecular dynamics in rare gas matrices

Nonadiabatic quantum dynamics of Br2 in solid Ar: A four-dimensional study of the B to C state predissociation

Nonadiabatic Quantum Dynamics and Laser Control of Br₂ in Solid Argon

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Alexander Borowski

Tailoring model Hamiltonians for dihalogen—rare gas matrix problems

Coherence and control of molecular dynamics in rare gas matrices

Nonadiabatic quantum dynamics of Br2 in solid Ar: A four-dimensional study of the B to C state predissociation

Nonadiabatic Quantum Dynamics and Laser Control of Br2 in Solid Argon

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Nonadiabatic Quantum Dynamics and Laser Control of Br₂ in Solid Argon