Abstract: A semiconductor device is provided. The semiconductor includes a substrate having a first conductivity type; a well region having a second conductivity type in the substrate; an impurity implantation region having the first conductivity type in the well region; an element separation pattern in the substrate; a first fin pattern defined by the element separation pattern in the impurity implantation region; a second fin pattern defined by the element separation pattern in the well region; and a third fin pattern defined by the element separation pattern in the substrate, wherein the first fin pattern is a single fin, and an entirety of a lower boundary of the impurity implantation region is in contact with the well region.

Abstract: A semiconductor device having a gate-all-around structure includes a first fin pattern and a second fin pattern separated by a first trench and extending in a first direction, a first nanosheet on the first fin pattern, a second nanosheet on the second fin pattern, a first fin liner extending along at least a portion of a sidewall and a bottom surface of the first trench, a first field insulation layer disposed on the first fin liner and filling a portion of the first trench, and a first gate structure overlapping an end portion of the first fin pattern and including a first gate spacer. A height from the bottom surface of the first trench to a lower surface of the first gate spacer is greater than a height from the bottom surface of the first trench to an upper surface of the first field insulation layer.

Abstract: A semiconductor device includes a substrate that includes a first region and a second region, a first active pattern on the first region, a first gate structure that intersects the first active pattern, a first epitaxial pattern connected to the first active pattern and includes n-type impurities, a first source/drain contact that penetrates an upper surface of the first epitaxial pattern and is connected to the first epitaxial pattern, a second active pattern on the second region, a second gate structure that intersects the second active pattern, a second epitaxial pattern connected to the second active pattern and includes p-type impurities, and a second source/drain contact that penetrates an upper surface of the second epitaxial pattern and is connected to the second epitaxial pattern. A lower surface of the first source/drain contact is lower than a lower surface of the second source/drain contact.

Abstract: A semiconductor device includes a substrate, an active pattern extending in a first direction on the substrate, first and second nanosheets stacked on the active pattern to be spaced apart from each other in a vertical direction, a gate electrode that extends in a second direction the active pattern, the gate electrode surrounding each of the first and second nanosheets, a source/drain region on at least one side of the gate electrode, and inner spacers between the gate electrode and the source/drain region, the inner spacers including a first inner spacer between the active pattern and the first nanosheet, and a second inner spacer between the first nanosheet and the second nanosheet, the second inner spacer having a first portion adjacent to the first nanosheet, and a second portion adjacent to the second nanosheet, the first portion being wider than the second portion.

Abstract: Provided is a semiconductor device comprising an active region on a substrate and including first and second sidewalls extending in a first direction and an epitaxial pattern on the active region, wherein the epitaxial pattern includes first and second epitaxial sidewalls extending from the first and second sidewalls, respectively, the first epitaxial sidewall includes a first epitaxial lower sidewall, a first epitaxial upper sidewall, and a first epitaxial connecting sidewall connecting the first epitaxial lower sidewall and the first epitaxial upper sidewall, the second epitaxial sidewall includes a second epitaxial lower sidewall, a second epitaxial upper sidewall, and a second epitaxial connecting sidewall connecting the second epitaxial lower sidewall and the second epitaxial upper sidewall, a distance between the first and second epitaxial upper sidewalls decreases away from the active region, and the first and second epitaxial lower sidewalls extend in parallel to a top surface of the substrate.

Abstract: A semiconductor device includes an active pattern having a lower pattern, and a plurality of sheet patterns spaced apart from the lower pattern in a first direction; first and second structures disposed on the lower pattern, wherein the first and second structures are arranged and spaced apart from each other in a second direction; a source/drain recess defined between first and second gate structures; and a source/drain pattern filling the source/drain recess, wherein the source/drain pattern includes a stacking fault spaced apart from the lower pattern.

Abstract: Provided is a semiconductor device comprising an active region on a substrate and including first and second sidewalls extending in a first direction and an epitaxial pattern on the active region, wherein the epitaxial pattern includes first and second epitaxial sidewalls extending from the first and second sidewalls, respectively, the first epitaxial sidewall includes a first epitaxial lower sidewall, a first epitaxial upper sidewall, and a first epitaxial connecting sidewall connecting the first epitaxial lower sidewall and the first epitaxial upper sidewall, the second epitaxial sidewall includes a second epitaxial lower sidewall, a second epitaxial upper sidewall, and a second epitaxial connecting sidewall connecting the second epitaxial lower sidewall and the second epitaxial upper sidewall, a distance between the first and second epitaxial upper sidewalls decreases away from the active region, and the first and second epitaxial lower sidewalls extend in parallel to a top surface of the substrate.

Abstract: A semiconductor device includes a substrate, an active pattern extending in a first direction on the substrate, first and second nanosheets stacked on the active pattern to be spaced apart from each other in a vertical direction, a gate electrode that extends in a second direction the active pattern, the gate electrode surrounding each of the first and second nanosheets, a source/drain region on at least one side of the gate electrode, and inner spacers between the gate electrode and the source/drain region, the inner spacers including a first inner spacer between the active pattern and the first nanosheet, and a second inner spacer between the first nanosheet and the second nanosheet, the second inner spacer having a first portion adjacent to the first nanosheet, and a second portion adjacent to the second nanosheet, the first portion being wider than the second portion.

Abstract: Provided is a semiconductor device comprising an active region on a substrate and including first and second sidewalls extending in a first direction and an epitaxial pattern on the active region, wherein the epitaxial pattern includes first and second epitaxial sidewalls extending from the first and second sidewalls, respectively, the first epitaxial sidewall includes a first epitaxial lower sidewall, a first epitaxial upper sidewall, and a first epitaxial connecting sidewall connecting the first epitaxial lower sidewall and the first epitaxial upper sidewall, the second epitaxial sidewall includes a second epitaxial lower sidewall, a second epitaxial upper sidewall, and a second epitaxial connecting sidewall connecting the second epitaxial lower sidewall and the second epitaxial upper sidewall, a distance between the first and second epitaxial upper sidewalls decreases away from the active region, and the first and second epitaxial lower sidewalls extend in parallel to a top surface of the substrate.

Abstract: A semiconductor device having a gate-all-around structure includes a first fin pattern and a second fin pattern separated by a first trench and extending in a first direction, a first nanosheet on the first fin pattern, a second nanosheet on the second fin pattern, a first fin liner extending along at least a portion of a sidewall and a bottom surface of the first trench, a first field insulation layer disposed on the first fin liner and filling a portion of the first trench, and a first gate structure overlapping an end portion of the first fin pattern and including a first gate spacer. A height from the bottom surface of the first trench to a lower surface of the first gate spacer is greater than a height from the bottom surface of the first trench to an upper surface of the first field insulation layer.

Abstract: A semiconductor device having a gate-all-around structure includes a first fin pattern and a second fin pattern separated by a first trench and extending in a first direction, a first nanosheet on the first fin pattern, a second nanosheet on the second fin pattern, a first fin liner extending along at least a portion of a sidewall and a bottom surface of the first trench, a first field insulation layer disposed on the first fin liner and filling a portion of the first trench, and a first gate structure overlapping an end portion of the first fin pattern and including a first gate spacer. A height from the bottom surface of the first trench to a lower surface of the first gate spacer is greater than a height from the bottom surface of the first trench to an upper surface of the first field insulation layer.

Abstract: Provided is a semiconductor device comprising an active region on a substrate and including first and second sidewalls extending in a first direction and an epitaxial pattern on the active region, wherein the epitaxial pattern includes first and second epitaxial sidewalls extending from the first and second sidewalls, respectively, the first epitaxial sidewall includes a first epitaxial lower sidewall, a first epitaxial upper sidewall, and a first epitaxial connecting sidewall connecting the first epitaxial lower sidewall and the first epitaxial upper sidewall, the second epitaxial sidewall includes a second epitaxial lower sidewall, a second epitaxial upper sidewall, and a second epitaxial connecting sidewall connecting the second epitaxial lower sidewall and the second epitaxial upper sidewall, a distance between the first and second epitaxial upper sidewalls decreases away from the active region, and the first and second epitaxial lower sidewalls extend in parallel to a top surface of the substrate.

Abstract: A semiconductor device having a gate-all-around structure includes a first fin pattern and a second fin pattern separated by a first trench and extending in a first direction, a first nanosheet on the first fin pattern, a second nanosheet on the second fin pattern, a first fin liner extending along at least a portion of a sidewall and a bottom surface of the first trench, a first field insulation layer disposed on the first fin liner and filling a portion of the first trench, and a first gate structure overlapping an end portion of the first fin pattern and including a first gate spacer. A height from the bottom surface of the first trench to a lower surface of the first gate spacer is greater than a height from the bottom surface of the first trench to an upper surface of the first field insulation layer.

Abstract: A semiconductor device includes: a fin-type active area extending in a first direction protruding from a substrate; a plurality of nanosheet stacked structures; a blocking film covering a part of the upper surface and one sidewall of each of a pair of nanosheet stacked structures adjacent to both sides of the fin-type active area among the plurality of nanosheet stacked structures; a gate electrode extending in a second direction intersecting the first direction on the fin-type active area, the gate electrode including a real gate electrode surrounding the plurality of nanosheets and a dummy gate electrode disposed on the blocking film; and a gate dielectric layer between the real gate electrode and the plurality of nanosheets and between the dummy gate electrode and the blocking film.

Abstract: A semiconductor device includes: a fin-type active area extending in a first direction protruding from a substrate; a plurality of nanosheet stacked structures; a blocking film covering a part of the upper surface and one sidewall of each of a pair of nanosheet stacked structures adjacent to both sides of the fin-type active area among the plurality of nanosheet stacked structures; a gate electrode extending in a second direction intersecting the first direction on the fin-type active area, the gate electrode including a real gate electrode surrounding the plurality of nanosheets and a dummy gate electrode disposed on the blocking film; and a gate dielectric layer between the real gate electrode and the plurality of nanosheets and between the dummy gate electrode and the blocking film.

Abstract: An optical recording/reproducing apparatus including a plurality of light sources emitting lights with different wavelengths for use in recording/reproducing information onto/from various types of optical recording media of different recording densities, in which at least two lights emitted from the light sources have polarization components orthogonal to each other; an objective lens for focusing a light from each of the light sources to a corresponding optical recording medium; a collimating lens disposed between the light sources and the objective lens for collimating lights from the light sources; a hologram element installed between the collimating lens and the objective lens for refracting a light emitted from one of the light sources, in which the light to be refracted is selected by wavelength and polarization components; and a photodetector receiving a light that is reflected from the corresponding optical recording medium after being focused by the objective lens.

Abstract: An optical recording/reproducing apparatus featuring stable information signal detection ability and reduced number of components.