The Attosecond Revolution
The most intuitive way to understand the extreme nonlinear interaction that leads to attosecond pulses is through the semi-classical re-collision model. A strong infrared light pulse illuminating an atom or molecule creates a "free" electron wave packet by multiphoton ionization, usually approximated by tunneling. Tunneling occurs over a range of phases of the fundamental pulse near each crest of the laser electric field - a time window of roughly 300 attoseconds (as). In practice, in the infrared, multiphoton ionization intensities in the range of 1014 to 1015 W/cm2 are needed, corresponding to peak electric field strengths of 3-10 V/Å...
This article by Paul Corkum and Zenghu Chang is the cover story in the October Optics & Photonics News, the trade journal of the Optical Society of America. The full text is available as a web page or as an Acrobat file.
Recently Published Papers:
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Strong-field modulated diffraction effects in the correlated electron-nuclear motion in dissociating H2+
Feng He, Andreas Becker, Uwe Thumm
Phys. Rev. Lett. 101, 213002 (2008)
See press release... -
Adiabatic hyperspherical study of triatomic helium systems
Hiroya Suno, B. D. Esry
Phys. Rev. A 78, 062701 (2008)
This Week at JRM
Week of 30 Nov 2008
| Mon | 1:30 pm | Nuts & Bolts |
| Hiroki on upgrades | ||
| Tue | ||
| Wed | 1:30 pm | AMO Seminar |
| Robert Lucchese, Texas A&M | ||
| Thu | ||
| Fri | 4:00 pm | Coffee & Cookies |
New In Science
Lew Cocke, Predrag Ranitovic and friends have a new article in the 14 Nov issue of Science.
"Observing the creation of electronic Feshbach resonances in soft x-ray-induced O2 dissociation" was done along with A. S. Sandhu, E. Gagnon, R. Santra, V. Sharma, Wen Li, Phay Ho, M. Murnane and H. Kapteyn.
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