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:

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)

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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.