Free-Carrier Generation Dynamics Induced By Ultrashort Intense Terahertz Pulses In Silicon
OPTICS EXPRESS(2021)
Abstract
We report the results of experimental studies and numerical simulation of the dynamics of the electron-hole pairs formation in silicon under the action of a two-period terahertz pulse with a maximum electric field strength of up to 23 MV/cm. It is shown that an inhomogeneous distribution of the charge carrier concentration over the depth of the silicon sample is formed, which persists for several microseconds. This inhomogeneity is formed due to a sharp increase in the rate of filling the conduction band with free carriers in the subsurface input layer of the silicon wafer, which occurs at a field strength above 15 MV/cm. (C) 2021 Optical Society of America under the terms of the OSA Open Access Publishing Agreement
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Key words
Silicon,Charge carrier,Field strength,Terahertz radiation,Electric field,Wafer,Solar cell efficiency,Electromagnetic radiation,Optoelectronics,Materials science,Optics
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