Abstract: An MIS transistor fabricated in a manner that minimizes the occurrence of leak currents and that improves overall transistor performance by minimizing variation in location of the transistor source and drain during fabrication thereof. A gate electrode is first fabricated on a substrate. Next, a thermal oxide layer is formed on a side of the gate electrode. A masking process is then performed with the thermal oxide layer to form a source and a drain. A silicon oxide layer is then deposited over the gate electrode, the source and the drain. An etching process is performed on the silicon oxide to form a side wall oxide film over the thermal oxide layer on the side of the gate electrode and to expose surfaces of the gate electrode, the source and the drain. A metal film is then deposited over the gate electrode, the source and the drain and is heat treated to form a metal silicide film on the exposed surfaces of the gate electrode, the source and the drain.

Abstract: Embodiments of the invention comprise a new device and technique to realize an improved coupling ratio integrated circuit device. This improvement is achieved by increasing an overlap portion between the first and second polysilicon layers, so as to increase the effective coupling ratio between the layers. In the embodiments of the present invention, a relatively tall or large portion of oxide is formed over at least a portion of each of a plurality of shallow trench isolation regions. This oxide is then utilized to provide a larger first polysilicon layer surface area, but without substantially increasing the tunnel oxide layer surface area. Then, a dielectric interlayer is formed upon the surface of the first polysilicon layer, and next, a second polysilicon layer is formed upon the dielectric interlayer. This increased overlap portion thus allows for an increased coupling ratio.

Abstract: A storage node to be a lower electrode of a capacitor is electrically connected to a polysilicon columnar conductive body filling a contact hole with a second polysilicon film therebetween. The second polysilicon film covers the inside of an opening portion formed in the first polysilicon film. The polysilicon film columnar conductive body is electrically connected to a source/drain region of an MOS transistor at a contact. Thus, a semiconductor device with good electrical connection between the capacitor and the transistor may be provided.

Abstract: A boron diffusion region is formed at a surface of a silicon substrate. A pair of n-type source/drain regions are formed at a surface of boron diffusion region. A gate electrode is formed at a region located between paired source/drain regions with a gate insulating film therebetween. A nitrogen implanted region is formed at the surface of silicon substrate located between paired n-type source/drain regions. Nitrogen implanted region has a peak nitrogen concentration at a position of a depth not exceeding 500 .ANG. from the surface of silicon substrate. Thereby, a transistor structure which can be easily miniaturized can be obtained.

Abstract: Disclosed is a transistor structure having a semiconductor substrate with a active region and a field region, a recess region being defined by either the field region or the active region, a gate electrode formed on portions of the active and recess region, and impurity regions formed in the active region of the semiconductor substrate on either side of the gate electrode. The transistor structure has an active region with at least one groove formed therein, and the transistor structure being formed for a low voltage operation.