Title :
Vertical diodes response to optical and electrical THz excitations
Author :
Karishy, Slyman ; Ajaka, Jassem ; Palermo, Carmine ; Varani, Luca
Author_Institution :
Lab. de Phys. Appl., Univ. Libanaise, Beyrouth, Lebanon
Abstract :
We use a hydrodynamic model self-consistently coupled to a 1D Poisson solver to simulate the excitation by optical beating as well as by electrical perturbation of plasma waves in n+nn+ InGaAs diodes at room temperature. We calculate the electric field response and the velocity response of the carriers in the middle of the diode regions. Our results show clearly the presence of three-dimensional plasma resonances in the terahertz frequency domain for the two region types (n and n+). The investigation is completed by calculating the local differential mobility.
Keywords :
III-V semiconductors; gallium arsenide; indium compounds; semiconductor diodes; 1D Poisson solver; InGaAs; carrier velocity response; electric field response; electrical THz excitation; electrical perturbation; excitation simulation; hydrodynamic model; local differential mobility; optical THz excitation; optical beating; plasma waves; terahertz frequency domain; three-dimensional plasma resonances; vertical diode response; Hydrodynamics; Indium gallium arsenide; Mathematical model; Oscillators; Plasma waves; Plasmas; Resonant frequency; Hydrodynamic model; InGaAs; THz frequency; n+nn+ diode; plasma oscillation;
Conference_Titel :
Computational Electronics (IWCE), 2014 International Workshop on
Conference_Location :
Paris
DOI :
10.1109/IWCE.2014.6865858
