Abstract: According to one embodiment, a semiconductor device includes a fin-type semiconductor layer formed on a semiconductor substrate, a source layer connected to one end of the fin-type semiconductor layer, a drain layer connected to the other end of the fin-type semiconductor layer, and a gate electrode that includes a first sub electrode that is arranged on the source layer side of the fin-type semiconductor layer to extend toward the drain layer side on the base side of the fin-type semiconductor layer and has a first work function and a second sub electrode that is arranged on the drain layer side of the fin-type semiconductor layer and has a second work function different from the first work function.

Abstract: According to one embodiment, a semiconductor device includes a semiconductor protrusion formed on a semiconductor substrate, a source/drain layer provided in a vertical direction of the semiconductor protrusion, a gate electrode provided on a side surface of the semiconductor protrusion through a gate insulating film, and a channel region provided on the side surface of the semiconductor protrusion. The potential height in the channel region is different between the drain layer side and the source layer side.

Abstract: According to one embodiment, a semiconductor device including: a substrate; a gate electrode formed above the substrate; a gate insulating film formed under the gate electrode; a channel layer formed under the gate insulating film by using a channel layer material; a source region and a drain region formed in the substrate so as to interpose the channel layer therebetween in a channel direction; and a source extension layer formed in the substrate between the channel layer and the source region so as to overlap a source-side end portion of the channel layer. The source extension layer forms a heterointerface with the channel layer. The heterointerface is a tunnel channel for carries.

Abstract: According to an embodiment, a semiconductor device includes a gate electrode formed on a semiconductor substrate via an insulating layer; a source region including an extension region, a drain region including an extension region, a first diffusion restraining layer configured to prevent a diffusion of the conductive impurity in the source region and including an impurity other than the conductive impurity, and a second diffusion restraining layer configured to prevent a diffusion of the impurity in the drain region and including the impurity other than the conductive impurity.

Abstract: In one embodiment, a transistor includes: a substrate; a source electrode formed on the substrate; a drain electrode formed on the substrate; a graphene film formed between the source electrode and the drain electrode, the graphene film having a semiconductor region including a source side end and a conductor region including a drain side end, a width of the source side end of the graphene film in a channel width direction being narrower than a width of the drain side end of the graphene film in the channel width direction; and a gate electrode formed via a gate insulating film on the semiconductor region of the graphene film and the conductor region of the graphene film. The source electrode is connected to the source side end of the graphene film with a Schottky contact, and the drain electrode is connected to the drain side end of the graphene film with an ohmic contact.

Abstract: According to an embodiment of the present invention, a transistor includes a source electrode, a drain electrode, a graphene film formed between the source electrode and the drain electrode and having a first region and a second region, and a gate electrode formed on the first region and the second region of the graphene film via a gate insulating film. The graphene film functions as a channel. A Schottky junction is formed at a junction between the first region and the second region. The first region has a conductor property, and the second region is adjacent to the drain electrode side of the first region and has a semiconductor property.

Abstract: According to an embodiment, a semiconductor device includes a gate electrode formed on a semiconductor substrate via an insulating layer, a source region formed in the semiconductor substrate and including an extension region in a side closer to the gate electrode and a conductive impurity, the extension region including a side surface facing a horizontal direction and a bottom surface facing a vertical direction, a drain region formed in the semiconductor substrate and including an extension region in a side closer to the gate electrode and the conductive impurity, the extension region including a side surface facing the horizontal direction and a bottom surface facing a vertical direction, a first diffusion restraining layer formed in the semiconductor substrate, configured to prevent a diffusion of the conductive impurity in the source region, and including an impurity other than the conductive impurity, the first diffusion restraining layer being in contact with the side surface of the extension region of