Abstract: Provided is a semiconductor device including a substrate, a gate insulating film which is formed on the substrate, and a gate electrode which is provided on the gate insulating film. The gate electrode includes a first metal silicide including a first metal material, and a second metal silicide including one of a second metal material and the second metal material in a contact portion between the gate insulating film and the gate electrode. The second metal silicide including the second metal material is a metal-rich silicide in which the composition ratio of the second metal material to silicon in the second metal silicide including the second metal is greater than 1.

Abstract: A semiconductor device manufacturing method which prevents the resistance of a Ni silicide layer from increasing due to an additive element. First, a reaction control layer which contains a metallic element with an atomic number greater than Ni and does not contain Ni is formed over a silicon layer. Then, Ni is deposited over the reaction control layer and the silicon layer, reaction control layer and Ni are heat-treated to form a Ni silicide layer in the silicon layer. It is preferable that the reaction control layer be comprised of a metallic element with an atomic number greater than Ni.

Abstract: Disclosed is a semiconductor storage device comprising a semiconductor substrate, a first and a second impurity diffusion layer formed in the semiconductor substrate, a gate insulating film formed on the semiconductor substrate, and a first gate electrode formed on the semiconductor substrate via the gate insulating film. The gate insulating film has a nitrogen-containing silicon oxide film inside, and a silicon oxide film is so arranged on both sides of the nitrogen-containing silicon oxide film as to sandwich the nitrogen-containing silicon oxide film. In addition, the nitrogen composition in the nitrogen-containing silicon oxide film is increased from the semiconductor substrate side to the first gate electrode side.

Abstract: According to the present invention, a semiconductor device having a field effect transistor is provided. The field effect transistor comprises a gate insulating film 2 formed on a semiconductor layer 1 and a gate electrode 5 formed on the gate insulating film 2. The gate insulating film 2 has a silicon oxide film including a metal element 4 and nitrogen 3, and characteristics of the silicon oxide film are modified by adding the metal element 4 and nitrogen 3. Respective concentration distributions of the metal element 4 and nitrogen 3 in the gate insulating film 2 have maximum values on an interface side between the gate insulating film 2 and the gate electrode 5, and gradually decrease toward the semiconductor layer 1.

Abstract: Provided is a semiconductor device including a substrate, a gate insulating film which is formed on the substrate, and a gate electrode which is provided on the gate insulating film. The gate electrode includes a first metal silicide including a first metal material, and a second metal silicide including one of a second metal material and the second metal material in a contact portion between the gate insulating film and the gate electrode. The second metal silicide including the second metal material is a metal-rich silicide in which the composition ratio of the second metal material to silicon in the second metal silicide including the second metal is greater than 1.

Abstract: Disclosed is a semiconductor storage device comprising a semiconductor substrate, a first and a second impurity diffusion layer formed in the semiconductor substrate, a gate insulating film formed on the semiconductor substrate, and a first gate electrode formed on the semiconductor substrate via the gate insulating film. The gate insulating film has a nitrogen-containing silicon oxide film inside, and a silicon oxide film is so arranged on both sides of the nitrogen-containing silicon oxide film as to sandwich the nitrogen-containing silicon oxide film. In addition, the nitrogen composition in the nitrogen-containing silicon oxide film is increased from the semiconductor substrate side to the first gate electrode side.

Abstract: According to the present invention, a semiconductor device having a field effect transistor is provided. The field effect transistor comprises a gate insulating film 2 formed on a semiconductor layer 1 and a gate electrode 5 formed on the gate insulating film 2. The gate insulating film 2 has a silicon oxide film including a metal element 4 and nitrogen 3, and characteristics of the silicon oxide film are modified by adding the metal element 4 and nitrogen 3. Respective concentration distributions of the metal element 4 and nitrogen 3 in the gate insulating film 2 have maximum values on an interface side between the gate insulating film 2 and the gate electrode 5, and gradually decrease toward the semiconductor layer 1.