Article ID Journal Published Year Pages File Type
1666950 Thin Solid Films 2012 4 Pages PDF
Abstract

Based on the employments of an InGaP/GaAs superlattice emitter and a thin InGaAs pseudomorphic base structure, the device with excellent transistor action and multiple S-shaped negative-differential-resistance (NDR) switching behavior are achieved. Under normal transistor operation mode, the tunneling electrons could easily transport from InGaP/GaAs superlattice over the n-GaAs emitter layer into the thin InGaAs pseudomorphic base region for reducing the base–emitter turn-on voltage and promoting the current gain. In particular, an interesting multiple S-shaped NDR behavior is observed under inverted operation mode due to the avalanche multiplication and confinement effect for electrons at the interface between superlattice and emitter layer, respectively. As an appropriate voltage source and a load resistor are applied, three stable operation points are obtained.

Related Topics
Physical Sciences and Engineering Materials Science Nanotechnology
Authors
, , , , , ,