Optical Properties in Nonequilibrium Phase Transitions

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T. Ao,¹ Y. Ping,² K. Widmann,² D. F. Price,² E. Lee,¹ H. Tam,¹ P. T. Springer,² and A. Ng^1,2
¹Department of Physics & Astronomy, University of British Columbia, Vancouver, British Columbia, Canada
²Physics & Advanced Technologies, Lawrence Livermore National Laboratory, Livermore, California 94550, USA

Received 25 August 2004; revised 4 April 2005; published 8 February 2006

Anopen question about the dynamical behavior of materials is howphase transition occurs in highly nonequilibrium systems. One important classof study is the excitation of a solid by anultrafast, intense laser. The preferential heating of electrons by thelaser field gives rise to initial states dominated by hotelectrons in a cold lattice. Using a femtosecond laser pump-probeapproach, we have followed the temporal evolution of the opticalproperties of such a system. The results show interesting correlationto nonthermal melting and lattice disordering processes. They also reveala liquid-plasma transition when the lattice energy density reaches acritical value.

URL:	http://link.aps.org/doi/10.1103/PhysRevLett.96.055001
DOI:	10.1103/PhysRevLett.96.055001
PACS:	52.50.Jm; 52.25.Fi; 52.25.Os; 52.38.-r 52.50.Jm Plasma production and heating by laser beams including laser–foil, laser–cluster, etc 52.25.Fi Plasma transport properties 52.25.Os Emission, absorption, and scattering of electromagnetic radiation from plasmas 52.38.-r Laser–plasma interactions YEAR: 2006
KEYWORDS:	laser beam effects, high-speed optical techniques, melting, plasma production by laser, phase transformations, plasma diagnostics