| Patent application number | Description | Published |
|---|
| 20090050948 | SPIN MOS FIELD EFFECT TRANSISTOR AND TUNNELING MAGNETORESISTIVE EFFECT ELEMENT USING STACK HAVING HEUSLER ALLOY - A spin MOS field effect transistor includes a source electrode and a drain electrode each having a structure obtained by stacking an impurity diffusion layer, a (001)-oriented MgO layer and a Heusler alloy. The impurity diffusion layer is formed in a surface region of a semiconductor layer. The (001)-oriented MgO layer is formed on the impurity diffusion layer. The Heusler alloy is formed on the MgO layer. | 02-26-2009 |
| 20090057654 | SPIN FET AND MAGNETORESISTIVE ELEMENT - A spin FET of an aspect of the present invention includes source/drain regions, a channel region between the source/drain regions, and a gate electrode above the channel region. Each of the source/drain regions includes a stack structure which is comprised of a low work function material and a ferromagnet. The low work function material is a non-oxide which is comprised of one of Mg, K, Ca and Sc, or an alloy which includes the non-oxide of 50 at % or more. | 03-05-2009 |
| 20090059659 | SPIN TRANSISTOR AND MAGNETIC MEMORY - A spin transistor includes a first ferromagnetic layer provided on a substrate and having an invariable magnetization direction, a second ferromagnetic layer provided on the substrate apart from the first ferromagnetic layer in a first direction, and having a variable magnetization direction, a plurality of projecting semiconductor layers provided on the substrate to extend in the first direction, and sandwiched between the first ferromagnetic layer and the second ferromagnetic layer, a plurality of channel regions respectively provided in the projecting semiconductor layers, and a gate electrode provided on the channel regions. | 03-05-2009 |
| 20090180215 | TUNNELING MAGNETORESISTIVE EFFECT ELEMENT AND SPIN MOS FIELD-EFFECT TRANSISTOR - A magnetoresistive effect element includes a first ferromagnetic layer, Cr layer, Heusler alloy layer, barrier layer, and second ferromagnetic layer. The first ferromagnetic layer has the body-centered cubic lattice structure. The Cr layer is formed on the first ferromagnetic layer and has the body-centered cubic lattice structure. The Heusler alloy layer is formed on the Cr layer. The barrier layer is formed on the Heusler alloy layer. The second ferromagnetic layer is formed on the barrier layer. | 07-16-2009 |
| 20090243653 | SEMICONDUCTOR INTEGRATED CIRCUIT - A semiconductor integrated circuit includes an n-channel spin FET including one of a magnetic tunnel junction and a magneto-semiconductor junction, the n-channel spin FET including a gate terminal to receive an input signal, a source terminal to receive a first power supply potential, and a drain terminal connected to an output terminal, a p-channel FET including a gate terminal to receive a clock signal, a source terminal to receive a second power supply potential, and a drain terminal connected to the output terminal, a subsequent circuit connected to the output terminal, and a control circuit which turns on the p-channel FET to start charging the output terminal, then turns off the p-channel FET to end the charging, and supplies the input signal to the gate terminal of the n-channel spin FET. | 10-01-2009 |
| 20100019798 | SPIN MOSFET AND RECONFIGURABLE LOGIC CIRCUIT USING THE SPIN MOSFET - It is made possible to provide a spin MOSFET that can minimize the increase in production costs and can perform both spin injection writing and reading. A spin MOSFET includes: a substrate that has a semiconductor region of a first conductivity type; first and second ferromagnetic stacked films that are formed at a distance from each other on the semiconductor region, and each have the same stacked structure comprising a first ferromagnetic layer, a nonmagnetic layer, and a second ferromagnetic layer stacked in this order, the second ferromagnetic stacked film having a film-plane area different from that of the first ferromagnetic stacked film; a gate insulating film that is formed on a portion of the semiconductor region, the portion being located between the first ferromagnetic stacked film and the second ferromagnetic stacked film; and a gate that is formed on the gate insulating film. | 01-28-2010 |
| 20100072528 | SPIN TRANSISTOR, INTEGRATED CIRCUIT, AND MAGNETIC MEMORY - A spin transistor includes a first ferromagnetic layer, a second ferromagnetic layer, a semiconductor layer between the first and second ferromagnetic layers, and a gate electrode on or above a surface of the semiconductor layer, the surface being between the first and second ferromagnetic layers. The first ferromagnetic layer comprises a ferromagnet which has a first minority spin band located at a high energy side and a second minority spin band located at a low energy side, and has a Fermi level in an area of the high energy side higher than a middle of a gap between the first and second minority spin bands. | 03-25-2010 |
| 20100072529 | STACK HAVING HEUSLER ALLOY, MAGNETORESISTIVE ELEMENT AND SPIN TRANSISTOR USING THE STACK, AND METHOD OF MANUFACTURING THE SAME - A stack includes a crystalline MgO layer, crystalline Heusler alloy layer, and amorphous Heusler alloy layer. The crystalline Heusler alloy layer is provided on the MgO layer. The amorphous Heusler alloy layer is provided on the crystalline Heusler alloy layer. | 03-25-2010 |
| 20100187585 | Spin MOS field effect transistor and tunneling magnetoresistive effect element using stack having Heusler alloy - A spin MOS field effect transistor includes a source electrode and a drain electrode each having a structure obtained by stacking an impurity diffusion layer, a (001)-oriented MgO layer and a Heusler alloy. The impurity diffusion layer is formed in a surface region of a semiconductor layer. The (001)-oriented MgO layer is formed on the impurity diffusion layer. The Heusler alloy is formed on the MgO layer. | 07-29-2010 |
| 20100200899 | SPIN TRANSISTOR AND METHOD OF MANUFACTURING THE SAME - A spin transistor includes a source electrode, a drain electrode, and a gate electrode on a semiconductor substrate. At least one of the source electrode and the drain electrode includes a semiconductor region and a magnetic layer. The semiconductor region is formed in the semiconductor substrate. The magnetic layer is formed on the semiconductor region, and contains a crystalline Heusler alloy containing at least one of cobalt (Co) and iron (Fe). The semiconductor region and the magnetic layer contain the same impurity element. | 08-12-2010 |
| 20100244897 | SPIN MOSFET AND RECONFIGURABLE LOGIC CIRCUIT - A spin MOSFET includes: a first ferromagnetic layer provided on an upper face of a semiconductor substrate, and having a fixed magnetization direction perpendicular to a film plane; a semiconductor layer provided on an upper face of the first ferromagnetic layer, including a lower face opposed to the upper face of the first ferromagnetic layer, an upper face opposed to the lower face, and side faces different from the lower face and the upper face; a second ferromagnetic layer provided on the upper face of the semiconductor layer, and having a variable magnetization direction perpendicular to a film plane; a first tunnel barrier provided on an upper face of the second ferromagnetic layer; a third ferromagnetic layer provided on an upper face of the first tunnel barrier; a gate insulating film provided on the side faces of the semiconductor layer; and a gate electrode provided on the side faces of the semiconductor layer with the gate insulating film being interposed therebetween. | 09-30-2010 |
