Imaging femtosecond laser-induced electronic excitation in glass

Date Published	02/2003
Publication Type	Journal Article

Authors	Xianglei Mao Samuel S Mao Richard E Russo
DOI	10.1063/1.1541947
LBL Report Number	LBNL-52021
Abstract	While substantial progress has been achieved in understanding laser ablation on the nanosecond and picosecond time scales, it remains a considerable challenge to elucidate the underlying mechanisms during femtosecond laser material interactions. We present experimental observations of electronic excitation inside a wide band gap glass during single femtosecond laser pulse (100 fs, 800 nm) irradiation. Using a femtosecond time-resolved imaging technique, we measured the evolution of a laser-induced electronic plasma inside the glass and calculated the electron number density to be on the order of 10¹⁹ cm^-3.
Journal	Applied Physics Letters
Volume	82
Year of Publication	2003
Issue	5
Pagination	697-699
Short Title	Appl. Phys. Lett.
Keywords	USA Pulse Gap Band gap Evaporation Experimental Material Ablation Laser Laser ablation Laser ablation Time-resolved Time Ca Glass Glasses Plasma Number Pulses Single C Mechanism Mechanisms Femtosecond Excitation Electron number densities Picosecond Density Nanosecond Laser material interaction Electron Electron number density Nm Number density Order Ha Femtosecond laser Circulation Irradiation Physics Evolution L Band Electronic excitation Electronic-excitation FS Imaging Superconductor thin-films Time scales Time-resolved imaging
Organizations	Laser Technologies Group Energy Storage and Distributed Resources Division
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