Infrared-laser control of vibrational state redistribution during molecular dissociation: The time-dependent flux method in model simulations for HONO2 in the excited electronic state
M. Oppel et Gk. Paramonov, Infrared-laser control of vibrational state redistribution during molecular dissociation: The time-dependent flux method in model simulations for HONO2 in the excited electronic state, PHYS REV A, 60(5), 1999, pp. 3663-3666
The time-dependent flux redistribution analysis is applied to model simulat
ions of selective breaking of the ON single bond in the excited electronic
state of HONO2 and control of vibrational state redistribution of the OH fr
agment by infrared-laser pulses; Control over vibrational state redistribut
ion of the OH(upsilon) fragment is demonstrated, with the OH(upsilon = 0)/O
H(upsilon = 1) branching ratio being changed by about a factor of 30 and th
e dissociation probability approaching 100% on a picosecond time scale. [S1
050-2947(99)08109-3].