Controlling H{sup -} detachment with few-cycle pulses
- Department of Physics and Astronomy, The University of Nebraska-Lincoln, Nebraska 68588-0111 (United States)
We present a detailed analysis of short-pulse detachment processes using few-cycle pulses with the aim of demonstrating means for controlling such processes. We first generalize the standard Keldysh-type formalism for laser-target interactions (in which final-state interaction between the detached electron and the core is ignored) to include the possibility that the vector potential is nonzero at the end of the interaction between a short laser pulse and the target. With this formalism in hand, we examine the effects of half-cycle pulses (HCPs) on detachment of the prototypical negative ion H{sup -}, and show that detachment by pairs of oppositely-directed (i.e., 'bidirectional') HCPs allows one to understand the interference pattern seen in detachment by single-cycle pulses. We also examine in detail the transition from few-cycle pulses to many-cycle pulses as various experimental parameters are varied, i.e., the laser frequency, the laser-pulse duration, and the absolute phase of the carrier wave with respect to the pulse envelope. Finally, we examine the use of pairs of single-cycle pulses, differing in phase by 180 deg., together with a modest static electric field to control coherently the extent of H{sup -} detachment as the delay between the pulses is varied. Our simulations show that this scheme allows one to modulate the H{sup -} detachment probability by {approx}30%, which is far higher than has been achieved for similar schemes using many-cycle pulses. Although our results are presented specifically for H{sup -}, they apply to detachment of any negative ion having s-state valence electrons; in addition, the qualitative information on half-cycle, single-cycle, and few-cycle pulse interactions should be generally applicable to short-pulse detachment or ionization of other target atoms or ions.
- OSTI ID:
- 20640356
- Journal Information:
- Physical Review. A, Vol. 68, Issue 4; Other Information: DOI: 10.1103/PhysRevA.68.043407; (c) 2003 The American Physical Society; Country of input: International Atomic Energy Agency (IAEA); ISSN 1050-2947
- Country of Publication:
- United States
- Language:
- English
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