Patent application number | Description | Published |
20110227044 | TRANSISTOR AND METHOD FOR MANUFACTURING THE SAME - 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. | 09-22-2011 |
20110284938 | SPIN TRANSISTOR AND INTEGRATED CIRCUIT - A spin transistor according to an embodiment includes: a first magnetic region supplying a first polarized signal polarized in a first magnetization direction in accordance with a first input signal; a second magnetic region supplying a second polarized signal polarized in a second magnetization direction opposite from the first magnetization direction in accordance with a second input signal, the second input signal being different from the first input signal; and a third magnetic region outputting the first polarized signal supplied from the first magnetic region in accordance with a third input signal, and outputting the second polarized signal supplied from the second magnetic region in accordance with a fourth input signal different from the third input signal. | 11-24-2011 |
20120091537 | SEMICONDUCTOR DEVICE - In accordance with an embodiment, a semiconductor device includes an SRAM cell on a substrate. The SRAM cell includes: first and second load transistors each having an n-type source region and a p-type drain region, first and second driver transistors each having a p-type source region and an n-type drain region, and first and second transfer transistors each having an n-type source region and a n-type drain region. The n-type source regions of the first and second load transistors, the n-type drain regions of the first and second driver transistors, and the n-type source regions and the n-type drain regions of the first and second transfer transistors are located in a region other than a region present between any two of the p-type drain regions of the first and second load transistors and the p-type source regions of the first and second driver transistors. | 04-19-2012 |
20120175637 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SAME - 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. | 07-12-2012 |
20120228706 | SEMICONDUCTOR DEVICE - A memory includes a semiconductor layer, a gate insulating film on the semiconductor layer, and a gate electrode on the gate insulating film. A first channel region of a first conductivity type is provided on a surface of the semiconductor layer below the gate insulating film. A diffusion layer of a second conductivity type is provided below the first channel region in the semiconductor layer. The diffusion layer contacts a bottom of the first channel region in a direction substantially vertical to a surface of the semiconductor layer. The diffusion layer forms a PN junction with the bottom of the first channel region. A drain of a first conductivity type and a source of a second conductivity type are provided on a side and another side of the first channel region. A sidewall film covers a side surface of the first channel region on a side of the diffusion layer. | 09-13-2012 |
20130037867 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - According to one embodiment, a semiconductor device includes a substrate, a gate electrode, a channel region, a source region and a drain region. The source region forms a first boundary with the channel region, and the drain region forms a second boundary with the channel region. A side of the gate electrode at the side of the source region has a plurality of convex portions extending along a gate length direction, a side of the gate electrode at the side of the drain region is parallel to a gate width direction, the first boundary and the second boundary have shapes corresponding to the side of the gate electrode at the side of the source region and the side of the gate electrode at the side of the drain region, and the length of the first boundary is more than the length of the second boundary. | 02-14-2013 |