Abstract: An embodiment of a semiconductor device including a silicon carbide layer having a first and a second planes; a first silicon carbide region of first conductivity type in the silicon carbide layer; a second silicon carbide region of second conductivity type in the silicon carbide layer between the first silicon carbide region and the first plane; a third silicon carbide region of the first conductivity type in the silicon carbide layer located between the second silicon carbide region and the first plane; a first electrode located on a side of the first plane; a second electrode located on a side of the second plane; a gate electrode; an aluminum nitride layer containing an aluminum nitride crystal between the second silicon carbide region and the gate electrode; and an insulating layer between the aluminum nitride layer and the gate electrode and having a wider band gap than the aluminum nitride layer.

Abstract: A semiconductor device of an embodiment includes a silicon carbide layer having first and second plane, the silicon carbide layer including trench having a first portion and a second portion, the second portion having a width smaller than the first portion, an n-type first silicon carbide region, a p-type second silicon carbide region between the first silicon carbide region and the first plane, a p-type third silicon carbide region between the second silicon carbide region and the first plane and having a p-type impurity concentration lower than the second silicon carbide region, an n-type fourth silicon carbide region between the third silicon carbide region and the first plane, and an n-type fifth silicon carbide region between the second portion and the second silicon carbide region and having an n-type impurity concentration higher than the first silicon carbide region; and a gate electrode in the trench.

Abstract: An embodiment is a semiconductor device includes a silicon carbide layer having a first plane and a second plane facing the first plane; a gate electrode; an aluminum nitride layer located between the silicon carbide layer and the gate electrode, the aluminum nitride layer containing an aluminum nitride crystal; a first insulating layer located between the silicon carbide layer and the aluminum nitride layer; and a second insulating layer located between the aluminum nitride layer and the gate electrode and having a wider band gap than the aluminum nitride layer.

Abstract: A semiconductor device of an embodiment includes a first electrode, a second electrode, a silicon carbide layer between the first electrode and the second electrode, and the silicon carbide layer having a first plane and a second plane, the silicon carbide layer including a first trench, p-type first silicon carbide regions and n-type second silicon carbide regions alternately disposed, a p-type third silicon carbide region between the second silicon carbide region and the first plane, and an n-type fourth silicon carbide region between the third silicon carbide region and the first plane, and a p-type fifth silicon carbide region between the first silicon carbide region and the first trench, a gate electrode in the first trench, and a gate insulating layer. The length of the first silicon carbide region perpendicular to the first plane is longer than a depth of the first trench.

Abstract: According to one embodiment, a semiconductor device includes a supporter including a first surface, first, second, and third conductive parts, a semiconductor region, and an insulating part. A first direction from the first toward second conductive part is along the first surface. The semiconductor region includes first, second, and third partial regions. A second direction from the first toward second partial region is along the first surface and crosses the first direction. The third partial region is between the first partial region and the second conductive part in the first direction. The third partial region includes a counter surface facing the second conductive part. A direction from the counter surface toward the third conductive part is along the second direction. The insulating part includes an insulating region. At least a portion of the insulating region is between the counter surface and the third conductive part.

Abstract: A semiconductor device of an embodiment includes: a first trench in a silicon carbide layer and extending in a first direction; a second trench and a third trench located in a second direction orthogonal to the first direction with respect to the first trench and adjacent to each other in the first direction, n type first silicon carbide region, p type second silicon carbide region on the first silicon carbide region, n type third silicon carbide region on the second silicon carbide region, p type fourth silicon carbide region between the first silicon carbide region and the second trench, and p type fifth silicon carbide region located between the first silicon carbide region and the third trench; a gate electrode in the first trench; a first electrode; and a second electrode. A part of the first silicon carbide region is located between the second trench and the third trench.

Abstract: A semiconductor device of an embodiment includes: a first trench located in a silicon carbide layer extending in a first direction; a second trench and a third trench adjacent to each other in the first direction; n type first silicon carbide region; p type second silicon carbide region on the first silicon carbide region; n type third silicon carbide region on the second silicon carbide region; p type fourth silicon carbide region between the first silicon carbide region and the second trench; p type fifth silicon carbide region between the first silicon carbide region and the third trench; p type sixth silicon carbide region shallower than the second trench between the second trench and the third trench and having a p type impurity concentration higher than that of the second silicon carbide region; a gate electrode in the first trench; a first electrode, and a second electrode.

Abstract: A semiconductor device of an embodiment includes a first trench extending in a first direction in a silicon carbide layer; a second trench and a third trench adjacent to each other in the first direction; a first silicon carbide region of n type; a second silicon carbide region of p type on the first silicon carbide region; a third silicon carbide region of n type on the second silicon carbide region; a fourth silicon carbide region of p type between the first silicon carbide region and the second trench; a fifth silicon carbide region of p type between the first silicon carbide region and the third trench; a gate electrode in the first trench; a first electrode, part of which is in the second trench, the first electrode contacting the first silicon carbide region between the fourth silicon carbide region and the fifth silicon carbide region; and a second electrode.

Abstract: A semiconductor device according to an embodiment includes a gate electrode, a gate insulating layer, and a silicon carbide layer. The silicon carbide layer includes at least one first element selected from the group consisting of S, Se, Te, Ti, Zr, Hf, V, Nb, Ta, Cr, Mo, and W. The first distance between a first position and an interface between the gate insulating layer and the silicon carbide layer is equal to or less than 20 nm, and the first position is a position where a concentration of the first element is maximized. The second distance between a second position and the interface is equal to or less than 20 nm, second position is a position where a concentration of the first element is 1/10 of a concentration of the first element at the first position, and the second position is farther from the interface than the first position.

Abstract: A semiconductor device of an embodiment includes a SiC layer including a first trench, a second trench having first and second regions, an n-type first SiC region, a p-type second SiC region, an n-type third SiC region, a p-type fourth SiC region between the first trench and the first SiC region, and a p-type fifth SiC region between the second trench and the first SiC region and having a first portion and a second portion, a gate electrode in the first trench, a first electrode in the second trench, and a second electrode. A distance between the first trench and the first region is greater than a distance between the first trench and the second region, the first portion is separated from the fourth SiC region, the second portion contacts the fourth SiC region, the first region contacts the first portion, and the second region contacts the second portion.

Abstract: A semiconductor device according to an embodiment includes: a silicon carbide layer having a first plane, a second plane facing the first plane, a first trench, a second trench, an n-type first silicon carbide region, a p-type second silicon carbide region between the first silicon carbide region and the first plane, an n-type third silicon carbide region between the second silicon carbide region and the first plane, and a p-type fourth silicon carbide region between the second trench and the first silicon carbide region; a gate electrode being located in the first trench; a gate insulating layer; a first electrode, a portion of the first electrode being located in the second trench; a second electrode; and an interlayer insulating layer being located between the gate electrode and the first electrode, in which an interface between the first electrode and the interlayer insulating layer is located in the first trench.

Abstract: According to one embodiment, a method for manufacturing a semiconductor device is disclosed. The method can include a first process of causing a stacking fault of a first semiconductor layer to expand. The first semiconductor layer includes silicon carbide and a first element and is provided on a base body including silicon carbide. The first element includes at least one selected from the group consisting of N, P, and As. The method can include a second process of forming a second semiconductor layer on the first semiconductor layer after the first process. The second semiconductor layer includes silicon carbide and the first element. The method can include a third process of forming a third semiconductor layer on the second semiconductor layer. The third semiconductor layer includes silicon carbide and a second element. The second element includes at least one selected from the group consisting of B, Al, and Ga.

Abstract: A semiconductor device of an embodiment includes a silicon carbide layer having a first plane and a second plane and includes a trench located on a first plane side and has a first region and a second region, a first silicon carbide region of an n-type, a second silicon carbide region of a p-type between the first silicon carbide region and the first plane, a third silicon carbide region of the n-type between the second silicon carbide region and the first plane, and a fourth silicon carbide region of the p-type between the second region and the first silicon carbide region; a gate electrode in the first region; a first electrode on the first plane side of the silicon carbide layer, a part of the first electrode is located in the second region and is in contact with the third and the fourth silicon carbide region; and a second electrode.

Abstract: According to one embodiment, a semiconductor device includes first, second and third conductive parts, a first semiconductor region, and a first insulating part. A direction from the first conductive part toward the second conductive part is along a first direction. The first semiconductor region includes first, second, and third partial regions. A second direction from the first partial region toward the second partial region crosses the first direction. The third partial region is between the first partial region and the second conductive part in the first direction. The third partial region includes an opposing surface facing the second conductive part. A direction from the opposing surface toward the third conductive part is along the second direction. The first insulating part includes a first insulating region. At least a portion of the first insulating region is between the opposing surface and the third conductive part.

Abstract: According to one embodiment, a semiconductor device includes a first electrode, a second electrode, a third electrode, a semiconductor member, and a first crystal member. A direction from the first electrode toward the second electrode is aligned with a first direction. A position in the first direction of the third electrode is between positions in the first direction of the first electrode and the second electrode. The semiconductor member includes at least one selected from the group consisting of silicon carbide, silicon, carbon, and germanium. The semiconductor member includes a first region, and first and second partial regions. The first region is between the first and second electrodes in the first direction. A second direction from the first region toward the third electrode crosses the first direction. The first crystal member is provided between the first and third electrodes in the second direction.

Abstract: A semiconductor device according to an embodiment includes: a SiC layer having a first plane, a second plane, a first trench located on a first plane side, an n-type first SiC region, a p-type second SiC region between the first SiC region and the first plane, an n-type third SiC region between the second SiC region and the first plane, and a p-type fourth SiC region between the first SiC region and the first plane, at least a portion of the fourth SiC region located in the second SiC region, the fourth SiC region having a higher p-type impurity concentration than the second SiC region; a gate electrode in the first trench; a first electrode located on the first plane side; and a second electrode located on a second plane side. A depth of the fourth SiC region increases with distance from the first trench.

Abstract: A semiconductor device according to an embodiment includes: a SiC layer having a first plane and a second plane facing the first plane, the SiC layer including a first trench on a first plane side, an n-type first SiC region, a p-type second SiC region, an n-type third SiC region located in this order from the second plane to the first plane, a p-type fourth SiC region between the first SiC region and the first trench, a fifth SiC region between the first SiC region and the first plane, and a sixth SiC region between the fourth SiC region and the fifth SiC region, and the sixth SiC region having an n-type impurity concentration higher than an n-type impurity concentration of the first SiC region; a gate electrode in the first trench; a first electrode on the first plane side; and a second electrode on a second plane side.

Abstract: A semiconductor device of an embodiment includes an element region and a termination region surrounding the element region. The element region includes a gate trench, a first silicon carbide region of n-type, a second silicon carbide region of p-type on the first silicon carbide region, a third silicon carbide region of n-type on the second silicon carbide region, and a fourth silicon carbide region of p-type sandwiches the first silicon carbide region and the second silicon carbide region with the gate trench, the fourth silicon carbide region being deeper than the gate trench. The termination region includes a first trench surrounding the element region, and a fifth silicon carbide region of p-type between the first trench and the first silicon carbide region, the fifth silicon carbide region same or shallower than the fourth silicon carbide region. The semiconductor device includes a gate electrode, a first electrode, and a second electrode.

Abstract: According to one embodiment, a semiconductor device includes first, and second conductive members, first, second, and third semiconductor regions, and an insulating part. A direction from the first conductive member toward the second conductive member is along a first direction. The first semiconductor region includes first and second partial regions. A second direction from the first partial region toward the second partial region crosses the first direction. The first conductive member is between the first partial region and the second conductive member. A direction from the second partial region toward the second semiconductor region is along the first direction. A direction from the second conductive member toward the second semiconductor region is along the second direction. The third semiconductor region is between the second partial region and the second semiconductor region. The insulating part includes a first insulating region, a second insulating region, and a third insulating region.

Abstract: According to one embodiment, a semiconductor device includes a base body including silicon carbide, a first semiconductor region including silicon carbide and a first element, and a second semiconductor region including silicon carbide and the first element. The first semiconductor region includes first and second intermediate regions. A first concentration of the first element in the first intermediate region satisfies a first or a second condition. In the first condition, the first concentration is lower than a second concentration of the first element in the second intermediate region. In the second condition, the first concentration is higher than a third concentration of a second element included in the first intermediate region, the second concentration is higher than a fourth concentration of the second element in the second intermediate region, and a difference between the first and third concentrations is smaller than a difference between the second and fourth concentrations.