GaAs short channel lightly doped drain MESFET structure and fabrication

摘要

Disclosed is a self-aligned GaAs, lightly doped drain metal- semiconductor field effect transistor. In one embodiment, the device consists of a shallow n.sup.- active channel region formed on a GaAs substrate, a Schottky gate overlying the n.sup.- region and highly doped and deep n.sup.+ source and drain regions formed on either side of the gate. In the channel region between the gate edges and the source/drain are positioned n-type source/drain extensions which have an intermediate depth and doping concentration to minimize the device series resistance, suppress short channel effects and permit channel length reduction to submicron levels.PPIn a second embodiment, p-type pockets are provided under the source/drain extensions to better control the device threshold voltage and further reduce the channel length.P PIn terms of the method of fabrication of the first embodiment, starting with a GaAs substrate an n.sup.- semiconductor layer is formed in the device active region. Next, a Schottky gate is formed in direct contact with the n.sup.- layer. Next, a dielectric layer is deposited and reactive ion etched (RIE), forming gate sidewalls. Then, n-type source/drain extensions are formed followed by repetition of the dielectric layer deposition and RIE to enlarge the gate sidewalls. Finally, source/drain are implanted.PPTo form the second structure a p-type ion implantation is accomplished prior to or after the source/drain extension forming step to form the deep p-type pockets.