1. Self-limited underdense microplasmas in bulk silicon induced by ultrashort laser pulses.
- Author
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Mouskeftaras, Alexandros, Rode, Andrei V., Clady, Raphaël, Sentis, Marc, Utéza, Olivier, and Grojo, David
- Subjects
MICROPLASMAS ,SILICON ,CARRIER density ,IONIZATION (Atomic physics) ,ULTRASHORT laser pulses ,FEMTOSECOND lasers - Abstract
Two-photon ionization by focused femtosecond laser pulses initiates the development of micrometer-scale plasmas in the bulk of silicon. Using pump-and-probe transmission microscopy with infrared light, we investigate the space-time characteristics of these plasmas for laser intensities up to 101 2W/cm2 . The measurements reveal a self-limitation of the excitation at a maximum free-carrier density of ffi1019cm~3, which is more than one order of magnitude below the threshold for permanent modification. The plasmas remain unchanged in the --100 ps timescale revealing slow carrier kinetics. The results underline the limits in local control of silicon dielectric permittivity, which are inherent to the use of single near-infrared ultrashort Gaussian pulses. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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