Title :
Temperature- and Doping-Dependent Anisotropic Stationary Electron Velocity in Wurtzite GaN
Author :
Sridharan, Sriraaman ; Christensen, Adam ; Venkatachalam, Anusha ; Graham, Samuel ; Yoder, P.D.
Author_Institution :
Coll. of Eng., Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
The influences of temperature, dopant density, free-carrier density, and field orientation on the electron drift mobility and velocity-field relationship in wurtzite c -axis GaN are quantified by means of theoretical investigation. Electron velocity perpendicular to the growth plane is uniformly lower than that parallel to the growth plane for field strengths below 500 kV/cm, although anisotropy within the basal plane itself is found to be insignificant. The calculated low-field electron mobility is demonstrated to be consistent with recent Hall measurements over a range of dopant densities. Low-field mobility is enhanced under the influence of free-carrier densities above the background doping due to both increased screening of ionized impurities and a reduction in A1-LO phonon lifetime through the plasmon-phonon interaction.
Keywords :
Hall mobility; III-V semiconductors; carrier density; carrier lifetime; electron mobility; gallium compounds; impurities; phonon-plasmon interactions; semiconductor doping; wide band gap semiconductors; Hall mobility; background doping; doping-dependent anisotropic stationary electron velocity; field strengths; free-carrier density; growth plane; ionized impurities; low-field electron mobility; phonon lifetime; plasmon-phonon interaction; temperature-dependent anisotropic stationary electron velocity; velocity-field relationship; wurtzite c-axis GaN; Electron mobility; Gallium nitride; HEMTs; MODFETs; Monte Carlo methods; Phonons; Scattering; Electron velocity; ionized impurity; phonon population; wurtzite gallium nitride (GaN);
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2011.2164611
