The conduction current and displacement current in a Terahertz antenna

A semiclassical Monte Carlo model is presented to study the time-varying conduction current and displacement current in a Terahertz photoconductive antenna after photoexcitation. We analyzed conduction current and displacement current in a biased GaAs photoconductive antenna after fs laser pulse exc...

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Hauptverfasser:	WanLi Jia, Wei Shi, WeiLi Ji, SuGuo Chen, SiFeng Wu
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Analytical models Antenna radiation patterns Atomic measurements condcution current Conductors displacement current Magnetic domains Monte Carlo model Optical pumping Terahertz
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creator	WanLi Jia Wei Shi WeiLi Ji SuGuo Chen SiFeng Wu
description	A semiclassical Monte Carlo model is presented to study the time-varying conduction current and displacement current in a Terahertz photoconductive antenna after photoexcitation. We analyzed conduction current and displacement current in a biased GaAs photoconductive antenna after fs laser pulse excitation as a function of bias voltage, pump pulse energy. While we analyzed conduction current and displacement current contribute on THz wave radiation. The simulation results show that the light-intensity dependence mainly influences the pulse amplitudes of the conduction current and the displacement current and THz wave. At the same light-intensity, higher bias field gives larger conduction current. The simulation results show that conduction current and displacement current are source of THz waveform radiated by bias photoconductive current.
doi_str_mv	10.1109/ICEOE.2011.6013362
format	Conference Proceeding
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We analyzed conduction current and displacement current in a biased GaAs photoconductive antenna after fs laser pulse excitation as a function of bias voltage, pump pulse energy. While we analyzed conduction current and displacement current contribute on THz wave radiation. The simulation results show that the light-intensity dependence mainly influences the pulse amplitudes of the conduction current and the displacement current and THz wave. At the same light-intensity, higher bias field gives larger conduction current. 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We analyzed conduction current and displacement current in a biased GaAs photoconductive antenna after fs laser pulse excitation as a function of bias voltage, pump pulse energy. While we analyzed conduction current and displacement current contribute on THz wave radiation. The simulation results show that the light-intensity dependence mainly influences the pulse amplitudes of the conduction current and the displacement current and THz wave. At the same light-intensity, higher bias field gives larger conduction current. The simulation results show that conduction current and displacement current are source of THz waveform radiated by bias photoconductive current.</abstract><pub>IEEE</pub><doi>10.1109/ICEOE.2011.6013362</doi></addata></record>
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subjects	Analytical models Antenna radiation patterns Atomic measurements condcution current Conductors displacement current Magnetic domains Monte Carlo model Optical pumping Terahertz
title	The conduction current and displacement current in a Terahertz antenna
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