论文信息 - Time-resolved spectroscopy of plasma resonances in highly excited silicon and germanium

Time-resolved spectroscopy of plasma resonances in highly excited silicon and germanium

The dynamics of the electron-hole plasma in silicon and germanium samples irradiated by 20 ps. 532 nm laser pulses has been investigated in the near infrared by the time-resolved picosecond optical spectroscopy. The experimental reflectivities and transmission are compared with the predictions of the thermal model for degenerate carrier distributions through the Drude formalism. Above a certain fluence, a significant deviation between measured and calculated values indicates a strong increase of the recombination rate as soon as the plasma resonances become comparable with the band gaps. These new plasmon-aided recombination channels are particularly pronounced in germanium. 15 refs., 8 figs.

A. M. Malvezzi | H. Kurz | N. Bloembergen | C. Huang

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