Coulomb Explosion of D2
We present the first systematic wavelength-dependent study of laser Coulomb explosion of deuterium molecules at various peak intensities and polarizations. We measured the kinetic energy spectra of D+ for laser wavelengths in the range 480-2000 nm. In addition to the well-known enhanced ionization channel present for all wavelengths, we observe a new high-energy band at short wavelengths. This new band exhibits wavelength dependence, with fragment energy decreasing with increasing wavelengths until it merges with the enhanced ionization band for 800 nm and longer. We attribute the emergence of this band to a new pathway that involves resonant three-photon coupling to the first excited electronic state of the molecular ion during the Coulomb explosion process. This pathway should be accounted for in controlling molecular dynamics of hydrogen by intense laser pulses.
The full text is found in New Journal of Physics, 10, 83011 (07 Aug 2008).
Recently Published Papers:
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Effects of laser pulse duration on extreme ultraviolet spectra from double optical gating
Steve Gilbertson, Hiroki Mashiko, Chengquan Li, Eric Moon, Zenghu Chang
Appl. Phys. Lett. 93, 111105 (2008) -
High kinetic energy release upon dissociation and ionization of an N2+ beam by intense few-cycle laser pulses
B. Gaire, J. McKenna, A. M. Sayler, Nora G. Johnson, E. Parke, K. D. Carnes, B. D. Esry, I. Ben-Itzhak
Phys. Rev. A 78, 033430 (2008)
This Week at JRM
Week of 05 Oct 2008
| Mon | 1:30 pm | Nuts & Bolts |
| Reports | ||
| Tue | ||
| Wed | 1:30 pm | AMO Seminar |
| Jarlath McKenna, KSU | ||
| Thu | ||
| Fri | 4:00 pm | Coffee & Cookies |
Nobel Prize
The 2008 Nobel Prize in Physics has been awarded for work on symmetry breaking.
The award is shared by Yoichiro Nambu of the University of Chicago, Makoto Kobayashi from KEK, and Toshihide Maskawa of YITP at Kyoto University.
Kansas State University
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