Coherent control of bimolecular chemical reactions

Abstract: We show how the method of coherent control can be applied to control product yield in bimolecular chemical reactions. First, a laser pulse prepares a coherent superposition of two bound levels of an electronically excited state of the reactants. Then, after a variable delay, a second laser pulse photodissociates the system to the ground state continuum. By varying the detuning of the excitation pulse and the delay between the two pulses, we show that significant control of the product ratio can be achieved. As… Show more

“…Significantly then, extensive control is not limited to regions near the reactive threshold [7]. Further, although Eqs.…”

Coherent Control of Reactive Scattering

“…Significantly then, extensive control is not limited to regions near the reactive threshold [7]. Further, although Eqs.…”

Coherent Control of Reactive Scattering

“…To examine we introduce symmetric and antisymmetric continuum eigenfunctions of u, sb') = (f E, n, q = 1-) + I E, n, q = 2 ))/2 and = (I E, n, q = 1-) -I E, n, q = 2 ))/2. Assuming I E1) is symmetric and I E2) antisymmetric, rewriting E, n, q) as a linear combination of I b) and I ib'), and adopting the notation A,2 = ("I/ia I E2), Sai = (14) where the plus sign applies for q = 1 and the minus sign for q = 2. Equation (14) displays two noteworthy features:…”

Coherent effects in laser chemistry

“…5 Both of these approaches are effective only below or near the threshold for reaction. In a recent paper 6 we showed that the coherent control principle applies to bimolecular collision processes above the reaction threshold.…”

Coherent control of bimolecular collisions: Collinear reactive scattering