Subcycle controlled charge-directed reactivity with few-cycle midinfrared pulses

The steering of electron motion in molecules is accessible with waveform-controlled few-cycle laser light and may control the outcome of light-induced chemical reactions. An optical cycle of light, however, is much shorter than the duration of the fastest dissociation reactions, severely limiting th...

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Veröffentlicht in:	Physical review letters 2012-02, Vol.108 (6), p.063002-063002, Article 063002
Hauptverfasser:	Znakovskaya, I, von den Hoff, P, Marcus, G, Zherebtsov, S, Bergues, B, Gu, X, Deng, Y, Vrakking, M J J, Kienberger, R, Krausz, F, de Vivie-Riedle, R, Kling, M F
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container_end_page	063002
container_issue	6
container_start_page	063002
container_title	Physical review letters
container_volume	108
creator	Znakovskaya, I von den Hoff, P Marcus, G Zherebtsov, S Bergues, B Gu, X Deng, Y Vrakking, M J J Kienberger, R Krausz, F de Vivie-Riedle, R Kling, M F
description	The steering of electron motion in molecules is accessible with waveform-controlled few-cycle laser light and may control the outcome of light-induced chemical reactions. An optical cycle of light, however, is much shorter than the duration of the fastest dissociation reactions, severely limiting the degree of control that can be achieved. To overcome this limitation, we extended the control metrology to the midinfrared studying the prototypical dissociative ionization of D(2) at 2.1 μm. Pronounced subcycle control of the directional D(+) ion emission from the fragmentation of D(2)(+) is observed, demonstrating unprecedented charge-directed reactivity. Two reaction pathways, showing directional ion emission, could be observed and controlled simultaneously for the first time. Quantum-dynamical calculations elucidate the dissociation channels, their observed phase relation, and the control mechanisms.
doi_str_mv	10.1103/PhysRevLett.108.063002
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title	Subcycle controlled charge-directed reactivity with few-cycle midinfrared pulses
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