Sputtered Gold as an Effective Schottky Gate for Strained Si/SiGe Nanostructures

Gavin Scott; Ming Xiao; Ed Croke; Eli Yablonovitch; HongWen Jiang

Sputtered Gold as an Effective Schottky Gate for Strained Si/SiGe Nanostructures

ORAL

Abstract

Metallization of Schottky surface gates by sputtering Au on strained Si/SiGe heterojunctions enables the depletion of the two dimensional electron gas (2DEG) at a relatively small voltage while maintaining an extremely low level of leakage current. A fabrication process has been developed to enable the formation of sub-micron Au electrodes sputtered onto Si/SiGe without the need of a wetting layer.

March 5, 2007, 11:15 AM – March 5, 2007, 11:27 AM

Authors

Gavin Scott

UCLA Dept of Physics
Ming Xiao

UCLA Dept of Physics
Ed Croke

HRL Laboratories
Eli Yablonovitch

UCLA Dept of Electrical Engineering
HongWen Jiang

Department of Physics and Astronomy, University of California at Los Angeles, UCLA Dept of Physics