Abstract: In a semiconductor device and method for manufacturing the same, a buried insulating layer is formed on a semiconductor substrate, multiple depletion regions of a first conductivity type are formed on the buried insulating layer and separated from one another, a field oxide layer is formed among the depletion regions of the buried insulating layer, a gate oxide layer is formed on the depletion regions, a gate is formed on the gate oxide layer, impurity regions that are heavily doped with impurities of a second conductivity type is formed in the depletion regions on both sides of the gate to define a source and drain, and a counter doping layer that is lightly doped with impurities of the second conductivity type is formed under the channel defined by a portion of the depletion regions positioned between the impurity regions.
Abstract: A thin-film transistor includes a substrate and a gate including a double-layered structure having first and second metal layers provided on the substrate, the first metal layer being wider than the second metal layer by about 1 to 4 &mgr;m. A method of making such a thin film transistor includes the steps of: depositing a first metal layer on a substrate, depositing a second metal layer directly on the first metal layer; forming a photoresist having a designated width on the second metal layer; patterning the second metal layer via isotropic etching using the photoresist as a mask; patterning the first metal layer by means of an anisotropic etching using the photoresist as a mask, the first metal layer being etched to have the designated width, thus forming a gate having a laminated structure of the first and second metal layers; and removing the photoresist.