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 was the cover story in the October Optics & Photonics News. It is available in Acrobat form.

Recently Published Papers:

Quantitative rescattering theory for high-order harmonic generation from molecules
Anh-Thu Le, R. R. Lucchese, S. Tonzani, T. Morishita, C. D. Lin
Phys. Rev. A 80, 013401 (2009)
Laser-induced multiple ionization of molecular ion beams...
B. Gaire, J. McKenna, Nora G. Johnson, A. M. Sayler, E. Parke, K. D. Carnes, I. Ben-Itzhak
Phys. Rev. A 79, 063414 (2009)

Find more of our Publications...

This Week at JRM

Week of 28 June 2009

Mon	1:30 pm	Nuts & Bolts
Reports
	4:00 pm	Colloquium
Andre Staudte, NRC Canada
Tue
Wed
Thu	1:30 pm	AMO Seminar
Lars Madsen, Aarhus
Fri	Independence Day Holiday

Fulbright Scholar

Nora Johnson is one of three KSU students who have won 2009 Fulbright scholarships for travels abroad.

Nora, who studies laser-molecule interactions with Itzik Ben-Itzhak, will use her scholarship to continue that work in Germany. She looks forward to a career in an academic setting with an even workload of research and teaching duties.