Coherent radiative control of unimolecular reactions: Selective bond breaking with picosecond pulses
- 15 June 1989
- journal article
- conference paper
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 90 (12) , 7132-7136
- https://doi.org/10.1063/1.456243
Abstract
We show that the principle of coherent control of chemical reactions can be implemented, in a two pulse sequence, to control the relative yield of reaction products in unimolecular dissociation. Experimental control parameters in this implementation are seen to be the intensity of the pulses and the delay time between them, with required delay times in the experimentally accessible picosecond range. As an example, application is made to control the production of D+H2 vs HD+H in the dissociation of a model collinear molecule with DH2 masses. In addition, plots of the evolving superposition state are presented in order to emphasize relevant characteristics of excitation with slow pulses.Keywords
This publication has 13 references indexed in Scilit:
- Phase-coherent control of photocurrent directionality in semiconductorsPhysical Review B, 1989
- Simplified laser control of unimolecular reactions: Simultaneous (ω1, ω3) excitationChemical Physics Letters, 1988
- Laser catalysis and transition state spectra of the H+H2 exchange reactionThe Journal of Chemical Physics, 1988
- Polarization control of branching ratios in photodissociationPhysical Review Letters, 1988
- Coherent Pulse Sequence Control of Product Formation in Chemical ReactionsPublished by Wiley ,1988
- Control of unimolecular reactions using coherent lightChemical Physics Letters, 1986
- Coherent radiative control of unimolecular reactions. Three-dimensional resultsFaraday Discussions of the Chemical Society, 1986
- Control of selectivity of chemical reaction via control of wave packet evolutionThe Journal of Chemical Physics, 1985
- Spectroscopy of the transition state (theory). II. Absorption by H‡3 in H+H2→H‡3→H2+HThe Journal of Chemical Physics, 1984
- Pulsed laser preparation and quantum superposition state evolution in regular and irregular systemsFaraday Discussions of the Chemical Society, 1983