Low-leakage current and high-breakdown voltage GaAs-based heterostructure field-effect transistor with In0.5(Al0.66Ga0.34)0.5P Schottky layer

Abstract: An In0.5(Al0.66Ga0.34)0.5P/GaAs heterostructure field-effect transistor has been fabricated by metal-organic chemical vapor deposition. A turn-on voltage as high as 3.2 V along with an extremely low gate reverse leakage current of 69 μA/mm at VGD=−40 V are achieved. In addition, it is found that the device can be operated with gate voltage up to 1.5 V without significant drain current compression. These characteristics are attributed to the use of high Schottky barrier height, high band gap of In0.5(Al0.66Ga0.… Show more

“…Lattice mismatch between GaAs and InGaAs can be accommodated by elastic strain rather than by generating misfit dislocations, if epi-layer thickness [3,4] is precisely controlled. The main breakthrough of the heterostructure devices lies in the introduction of the two more advanced epitaxial growth techniques: molecular beam epitaxy (MBE) [5][6][7][8] and metalorganic chemical vapor deposition (MOCVD) [9][10][11][12]. The delta-doped structure can maintain an extremely high doping level within an atomic region and thus forms a V-shaped quantum well.…”

Optical and electrical characteristics of GaAs/InGaAs quantum-well device

“…Lattice mismatch between GaAs and InGaAs can be accommodated by elastic strain rather than by generating misfit dislocations, if epi-layer thickness [3,4] is precisely controlled. The main breakthrough of the heterostructure devices lies in the introduction of the two more advanced epitaxial growth techniques: molecular beam epitaxy (MBE) [5][6][7][8] and metalorganic chemical vapor deposition (MOCVD) [9][10][11][12]. The delta-doped structure can maintain an extremely high doping level within an atomic region and thus forms a V-shaped quantum well.…”

Optical and electrical characteristics of GaAs/InGaAs quantum-well device

Investigation of degradation mechanism of Schottky diodes

The investigation for various treatments of InAlGaP Schottky diodes