Abstract: The invention provides a semiconductor device capable of suppressing a short channel effect and fluctuation in a threshold. The semiconductor device includes: a plurality of first transistors formed in a first region in a semiconductor layer in a multilayer substrate having, on a semiconductor substrate, an insulating layer and the semiconductor layer in order from the semiconductor substrate; a plurality of second transistors formed in a second region in the semiconductor layer; a first impurity layer formed in a region opposed to the first region in the semiconductor substrate; a second impurity layer formed in a region opposed to the second region in the semiconductor substrate; and a first isolation part that isolates the first and second regions from each other and electrically isolates the first and second impurity layers from each other to a degree that at least current flowing between the first and second impurity layers is interrupted.

Abstract: In first and second gate electrodes constituting a gate electrode, the gate length of the second gate electrode is set shorter than the gate length of the first gate electrode and short enough to produce the short channel effect. The threshold voltage of a second transistor corresponding to the second gate electrode can thereby be made lower than the threshold voltage of a first transistor corresponding to the first gate electrode. When the same voltage is applied to the first and second gate electrodes, an electric field concentration at the channel edge on the drain side is reduced. This in result reduces the channel length modulation effect.

Abstract: A phase-change memory device has a different-material contact plug having a first electrically conductive material plug made of a first electrically conductive material, and a second electrically conductive material plug made of a second electrically conductive material having a specific resistance smaller than the first electrically conductive material, the first electrically conductive material plug and the second electrically conductive material plug being buried in a common contact hole. The different-material contact plug is effective for reducing the radiation of heat from a contact plug beneath a phase-change layer. The phase-change memory device also includes an extension electrode layer held in contact with a portion of the bottom surface of the phase-change layer in an area displaced off a position directly above a contact surface through which the phase-change layer and the heater electrode contact each other.

Abstract: Embodiments herein present a structure, method, etc. for making high density MOSFET circuits with different height contact lines. The MOSFET circuits include a contact line, a first gate layer situated proximate the contact line, and at least one subsequent gate layer situated over the first gate layer. The contact line includes a height that is less than a combined height of the first gate layer and the subsequent gate layer(s). The MOSFET circuits further include gate spacers situated proximate the gate layers and a single contact line spacer situated proximate the contact line. The gate spacers are taller and thicker than the contact line spacer.

Abstract: In a method of fabricating a transistor including a buried insulating layer and transistor fabricated using the same, the method includes sequentially forming a sacrificial layer and a top semiconductor layer on a single crystalline semiconductor substrate. A gate pattern is formed on the top semiconductor layer. A sacrificial spacer is formed to cover sidewalls of the gate pattern. An elevated semiconductor layer is grown on a portion of the top semiconductor layer adjacent to the sacrificial spacer. The sacrificial spacer is removed. A portion of the top semiconductor layer from which the sacrificial spacer is removed is etched until the sacrificial layer is exposed, thereby forming a recess, which separates the top semiconductor layer into a first top semiconductor layer pattern and a second top semiconductor layer pattern, which remain under the gate pattern and the elevated semiconductor layer, respectively. The sacrificial layer is selectively removed.

Abstract: A device utilizing a breakdown layer in combination with a programmable resistance material, a phase-change material or a threshold switching material. The breakdown layer having damage.

Abstract: A semiconductor device, comprises: a transistor having structured to include a gate electrode formed on a semiconductor layer on a semiconductor substrate via a gate insulating film, and a source layer and a drain layer formed on the semiconductor layer sandwiching the gate electrode; a hollow portion existing between the source layer and the semiconductor substrate, and between the drain layer and the semiconductor substrate, respectively; and the hollow portion in absence between the semiconductor layer under the gate electrode and the semiconductor substrate.