Title :
GaAs Tunnel Diode With Electrostatically Doped n-Region: Proposal and Analysis
Author :
Kumar, Mamidala Jagadesh ; Sharma, Shailesh
Author_Institution :
Dept. of Electr. Eng., IIT Delhi, New Delhi, India
Abstract :
In n-type GaAs, the electron concentration saturates to a value close to 1019 /cm3 even when the chemically doped impurity concentration is more than the value. Therefore, the peak current density in GaAs-based tunnel diodes is limited by the difficulty in realizing the n-type GaAs using dopant diffusion. In this brief, we demonstrate that the n-type region can be electrostatically induced in p-type GaAs using a metal electrode of appropriate work function. This obviates the need for n-type chemical impurity doping in GaAs. Using calibrated 2-D simulations, we demonstrate that the proposed GaAs tunnel diode with electrostatically doped n-region on p-type GaAs not only exhibits significantly improved peak current but also is easy to fabricate.
Keywords :
III-V semiconductors; current density; electrodes; gallium arsenide; semiconductor device models; semiconductor doping; tunnel diodes; work function; GaAs; GaAs tunnel diode; calibrated 2D simulations; chemically doped impurity concentration; dopant diffusion; electron concentration; electrostatically doped n-region; metal electrode; n-type GaAs; n-type chemical impurity doping; p-type GaAs; peak current density; work function; Current density; Doping; Gallium arsenide; Metals; Semiconductor diodes; Semiconductor process modeling; Electrostatic doping; GaAs; peak current; simulation; tunnel diode; tunnel diode.;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2015.2463117
