Insulator assisted self-aligned gate junction
Abstract
A high transconductance, low capacitance, low leakage compound semiconductor junction field effect transistor (JFET) enhances the low leakage current while having the advantages of a self-aligned JFET including low capacitance and low source-drain resistance. The diffused junction of the JFET is totally covered during the process of manufacture. An n-channel on a substrate has a layer of photoresist placed over it and exposed to leave a predefined pattern of photoresist. The patterned photoresist is used as a mask so that part of the n-channel layer is etched down to a desired depth leaving a wedge-shaped region. A layer of insulator, such as silicon dioxide, is deposited over the entire substrate and sides of the w edge-shaped region in insulator regions. Next, the photoresist is then removed. A p(+) diffusion or implant is performed in the wedge-shaped region to create a p(+) n-junction system which is the gate region of the JFET. The p(+) n-junction system sides are covered with insulator regions of silicon dioxide unlike the opened-junction of the conventional self-aligned gate JFET. Next, the gate patterned metal is deposited on top of the p(+) n-junction system and partially on the silicon dioxide insulator regions. Using the patterned gate metal as a mask, the silicon dioxide layer is removed. Source and drain metals are then self-aligned evaporated. The JFET has potential use in microwave, millimeter-wave and optical electronic circuits.
- Publication:
-
Patent Department of the Navy
- Pub Date:
- April 1991
- Bibcode:
- 1991navy.reptR....N
- Keywords:
-
- Gates (Circuits);
- Jfet;
- Self Alignment;
- Electrical Insulation;
- Indium Gallium Arsenides;
- N-Type Semiconductors;
- Patents;
- Semiconductor Junctions;
- Silicon Dioxide;
- Substrates;
- Electronics and Electrical Engineering