Open-loop and closed-loop control of dissociative ionization of ethanol in intense laser fields

The relative yield of the C–O bond breaking with respect to the C–C bond breaking in ethanol cation C2H5OH+ is maximized in intense laser fields (1013–1015W∕cm2) by open-loop and closed-loop optimization procedures. In the open-loop optimization, a train of intense laser pulses are synthesized so that the temporal separation between the first and last pulses becomes 800fs, and the number and width of the pulses within a train are systematically varied. When the duration of 800fs is filled with laser fields by increasing the number of pulses or by stretching all pulses in a triple pulse train, the relative yield of the C–O bond breaking becomes significantly large. In the closed-loop optimization using a self-learning algorithm, the four dispersion coefficients or the phases of 128 frequency components of an intense laser pulse are adopted as optimized parameters. From these optimization experiments it is revealed that the yield ratio of the C–O bond breaking is maximized as far as the total duration of th...