Abstract:
This study presents a photo-assisted method to measure the drift velocity of carriers in semiconductors, and successfully used to determine the drift velocity of holes in...Show MoreMetadata
Abstract:
This study presents a photo-assisted method to measure the drift velocity of carriers in semiconductors, and successfully used to determine the drift velocity of holes in GaN. A p-i-n diode with a buried p-type layer was designed and fabricated on a free-standing GaN substrate. By reverse-biasing the p-i-n diode and illuminating the cathode layer using an ultraviolet light simultaneously, photo-generated holes were injected into the depletion region and accelerated by the electric field to reach the saturation velocity. The drift velocity (vd)-electric field (E) characteristic can be obtained from the photocurrent induced by photo-generated holes. The measured hole drift velocity can be written as vd= μLFE/[1+( μLFE/vsat)β]1/β, where μLF = 17 cm2/Vs is the low-field hole mobility, vsat = 6.63×106cm/s is the saturation velocity, β = 1.75 is the fitting parameter. The method presented in this study is a unique way of determining the saturation drift velocity of holes in GaN.
Published in: IEEE Electron Device Letters ( Volume: 41, Issue: 1, January 2020)