Abstract: According to one embodiment, a semiconductor light emitting device includes an n-type semiconductor layer, a p-type semiconductor layer, and a light emitting layer. The p-type semiconductor layer includes a first p-side layer, a second p-side layer, and a third p-side layer. A concentration profile of Mg of a p-side region includes a first portion, a second portion, a third portion, a fourth portion, a fifth portion, a sixth portion and a seventh portion. The p-side region includes the light emitting layer, the second p-side layer, and the third p-side layer. A Mg concentration of the sixth portion is not less than 1×1020 cm?3 and not more than 3×1020 cm?3. The Al concentration is 1/100 of the maximum value at a second position. A Mg concentration at the second position is not less than 2×1018 cm?3.

Abstract: According to one embodiment, a semiconductor light emitting device includes an electrode layer, a first semiconductor layer, a first elongated electrode, a second semiconductor layer, and a light emitting layer. The first semiconductor layer includes a crystal having a cleavage plane. The first semiconductor layer includes a first thin film portion and a thick film portion. The first thin film portion extends in a first direction perpendicular to a stacking direction from the electrode layer toward the first semiconductor layer. The first thin film portion has a first thickness. The thick film portion is arranged with the first thin film portion in a plane perpendicular to the stacking direction. An angle between the first direction and the cleavage plane is not less than 3 degrees and not more than 27 degrees. The first elongated electrode extends in the first direction in contact with the first thin film portion.

Abstract: According to one embodiment, a semiconductor device includes a first semiconductor layer of an n type including a nitride semiconductor, a first metal layer of an alloy containing Al and Au, and a second metal layer. The first metal layer is in contact with the first semiconductor layer. The second metal layer is in contact with the first metal layer. The second metal layer includes a metal different from Al. The first metal layer is disposed between the second metal layer and the first semiconductor layer.

Abstract: According to one embodiment, a semiconductor light emitting device includes a stacked structural body, a first electrode, and a second electrode. The stacked structural body includes a first semiconductor layer of a first conductivity type, a second semiconductor layer of a second conductivity type, and a light emitting portion. The stacked structural body has a first major surface on a side of the second semiconductor layer. The first electrode is provided on the first semiconductor. The second electrode is provided on the second semiconductor layer. The first electrode includes a first pad portion and a first extending portion that extends from the first pad portion along a first extending direction. The first extending portion includes a first width-increasing portion. A width of the first width-increasing portion along a direction orthogonal to the first extending direction is increased from the first pad portion toward an end of the first extending portion.

Abstract: According to one embodiment, a semiconductor device includes a functional layer of a nitride semiconductor. The functional layer is provided on a nitride semiconductor layer including a first stacked multilayer structure provided on a substrate. The first stacked multilayer structure includes a first lower layer, a first intermediate layer, and a first upper layer. The first lower layer contains Si with a first concentration and has a first thickness. The first intermediate layer is provided on the first lower layer to be in contact with the first lower layer, contains Si with a second concentration lower than the first concentration, and has a second thickness thicker than the first thickness. The first upper layer is provided on the first intermediate layer to be in contact with the first intermediate layer, contains Si with a third concentration lower than the second concentration, and has a third thickness.

Abstract: According to one embodiment, a semiconductor light emitting device includes first and second conductive layers, a first semiconductor layer of a first conductivity type, a second semiconductor layer of a second conductivity type, and a light emitting part. The second semiconductor layer is provided between the first conductive layer and the first semiconductor layer. The light emitting part is provided between the first and second semiconductor layers. The second conductive layer is in contact with the second semiconductor layer and the first conductive layer between the second semiconductor layer and the first conductive layer. The first and second conductive layers are transmittable to light emitted from the light emitting part. The first conductive layer includes a polycrystal having a first average grain diameter. The second conductive layer includes a polycrystal having a second average grain diameter of 150 nanometers or less and smaller than the first average grain diameter.

Abstract: A semiconductor light emitting device includes an n-type semiconductor layer, a p-type semiconductor layer, and an active layer formed between the n-type semiconductor layer and the p-type semiconductor layer, and emitting light. The device further includes a p-electrode contacting to the p-type semiconductor layer, and including a first conductive oxide layer having an oxygen content lower than 40 atomic % and a second conductive oxide layer contacting to the first conductive oxide layer and having a higher oxygen content than the oxygen content of the first conductive oxide layer. The device also includes an n-electrode connecting electrically to the n-type semiconductor layer.

Abstract: According to one embodiment, a semiconductor light emitting element includes a first semiconductor layer, a second semiconductor layer, and a light emitting unit. The first semiconductor layer includes an n-type impurity having a first concentration. The second semiconductor layer includes a p-type impurity. The light emitting unit is provided between the first and second semiconductor layers. The light emitting unit includes a first barrier layer, a second barrier layer provided between the first barrier layer and the second semiconductor layer, a third barrier layer provided between the second barrier layer and the second semiconductor layer, a first well layer provided between the first and second barrier layers, and a second well layer provided between the second and third barrier layers. A plane including a boundary between the first barrier layer and the first well layer intersects a plane including a (0001) plane of the first semiconductor layer.

Abstract: According to one embodiment, a semiconductor light emitting device includes an n-type semiconductor layer, a p-type semiconductor layer, a light emitting part, and a p-side electrode. The light emitting part is provided between the n-type and the p-type semiconductor layers, and includes a plurality of barrier layers and a plurality of well layers. The p-side electrode contacts the p-type semiconductor layer. The p-type semiconductor layer includes first, second, third, and fourth p-type layers. The first p-type layer contacts the p-side electrode. The second p-type layer contacts the light emitting part. The third p-type layer is provided between the first p-type layer and the second p-type layer. The fourth p-type layer is provided between the second p-type layer and the third p-type layer. The second p-type layer contains Al and contains a p-type impurity in a lower concentration lower than that in the first concentration.

Abstract: According to one embodiment, a semiconductor light emitting device includes: a foundation layer, a first semiconductor layer, a light emitting part, and a second semiconductor layer. The foundation layer includes a nitride semiconductor. The foundation layer has a dislocation density not more than 5×108 cm?2. The first semiconductor layer of a first conductivity type is provided on the foundation layer and includes a nitride semiconductor. The light emitting part is provided on the first semiconductor layer. The light emitting part includes: a plurality of barrier layers; and a well layer provided between the barrier layers. The well layer has a bandgap energy smaller than a bandgap energy of the barrier layers and has a thickness larger than a thickness of the barrier layers. The second semiconductor layer of a second conductivity type different from the first conductivity type, is provided on the light emitting part and includes a nitride semiconductor.

Abstract: According to one embodiment, a semiconductor light emitting element includes a first electrode, a first semiconductor layer, a light emitting layer, a second semiconductor layer, a first insulating portion, and a first conductive layer. The first electrode includes first and second regions. The first semiconductor layer is separated from the first region, and includes first and second portions. The light emitting layer is provided between the second portion and the first region. The second semiconductor layer is provided between the light emitting layer and the first region. The second electrode is provided between the first region and the second semiconductor layer to contact the second semiconductor layer. The first insulating portion is provided between the first region and the second electrode. The first conductive layer is provided between the first portion and the first region, and includes a contact portion contacting the first portion.

Abstract: According to one embodiment, a semiconductor light emitting device includes a stacked structure body, a first electrode, a second electrode, and a dielectric body part. The stacked structure body includes a first semiconductor layer, having a first portion and a second portion juxtaposed with the first portion, a light emitting layer provided on the second portion, a second semiconductor layer provided on the light emitting layer. The first electrode includes a contact part provided on the first portion and contacting the first layer. The second electrode includes a first part provided on the second semiconductor layer and contacting the second layer, and a second part electrically connected with the first part and including a portion overlapping with the contact part when viewed from the first layer toward the second layer. The dielectric body part is provided between the contact part and the second part.

Abstract: According to one embodiment, a semiconductor light emitting device includes: a conductive layer; a first stacked body; a second stacked body; a first light-transmissive electrode; and a first interconnect electrode. The first stacked body includes a first semiconductor layer and a second semiconductor layer. The second semiconductor layer is provided between the first semiconductor layer and the conductive layer. The first light emitting layer is provided between the first semiconductor layer and the second semiconductor layer. The second stacked body includes a third semiconductor layer, a fourth semiconductor layer, and a second light emitting layer. The fourth semiconductor layer is provided between the third semiconductor layer and the conductive layer. The second light emitting layer is provided between the third semiconductor layer and the fourth semiconductor layer. The first interconnect electrode is provided between the second semiconductor layer and the third semiconductor layer.

Abstract: A semiconductor light emitting element includes a first substrate, a stacked body, an electrode, and a conductive layer. The first substrate has a first face and a first side face. The first side face intersects the first face. The first substrate includes a plurality of conductive portions and a plurality of insulating portions arranged alternately. The stacked body is aligned with the first substrate. The stacked body includes first and second semiconductor layers and a light emitting layer. The electrode is electrically connected to the first semiconductor layer. The conductive layer is electrically connected to at least one of the conductive portions and the second semiconductor layer. At least one of the insulating portions is disposed between the first side face and a portion of the conductive layer nearest to the first side face.

Abstract: According to one embodiment, a semiconductor light emitting device includes: a stacked body and an insulative optical path control section. The stacked body includes: a first semiconductor layer of a first conductivity type; a second semiconductor layer of a second conductivity type; and a light emitting layer provided between the first semiconductor layer and the second semiconductor layer. The first semiconductor layer, the second semiconductor layer, and the light emitting layer are stacked along a stacking direction. The insulative optical path control section penetrates through the second semiconductor layer and the light emitting layer, has a refractive index lower than refractive index of the first semiconductor layer, refractive index of the second semiconductor layer, and refractive index of the light emitting layer. The insulative optical path control section is configured to change traveling direction of light emitted from the light emitting layer.

Abstract: According to one embodiment, a semiconductor light emitting device includes a light emitting layer, a light transmitting layer and a first semiconductor layer. The light transmitting layer is transmittable with respect to light emitted from the light emitting layer. The first semiconductor layer contacts the light transmitting layer between the light emitting layer and the light transmitting layer. The light transmitting layer has a thermal expansion coefficient larger than a thermal expansion coefficient of the light transmitting layer, has a lattice constant smaller than a lattice constant of the active layer, and has a tensile stress in an in-plane direction.

Abstract: According to one embodiment, a method is disclosed for manufacturing a nitride semiconductor layer. The method can include forming a first nitride semiconductor layer on a substrate in a reactor supplied with a first carrier gas and a first source gas. The first nitride semiconductor layer includes indium. The first carrier gas includes hydrogen supplied into the reactor at a first flow rate and includes nitrogen supplied into the reactor at a second flow rate. The first source gas includes indium and nitrogen and supplied into the reactor at a third flow rate. The first flow rate is not less than 0.07% and not more than 0.15% of a sum of the first flow rate, the second flow rate, and the third flow rate.

Abstract: According to one embodiment, a semiconductor device includes a functional layer of a nitride semiconductor. The functional layer is provided on a nitride semiconductor layer including a first stacked multilayer structure provided on a substrate. The first stacked multilayer structure includes a first lower layer, a first intermediate layer, and a first upper layer. The first lower layer contains Si with a first concentration and has a first thickness. The first intermediate layer is provided on the first lower layer to be in contact with the first lower layer, contains Si with a second concentration lower than the first concentration, and has a second thickness thicker than the first thickness. The first upper layer is provided on the first intermediate layer to be in contact with the first intermediate layer, contains Si with a third concentration lower than the second concentration, and has a third thickness.

Abstract: According to one embodiment, a semiconductor light emitting device includes first and second semiconductor layers, and a light emitting unit. The light emitting unit is provided between the first and second semiconductor layers and includes well layers and barrier layers. The barrier layers include p-side and n-side barrier layers, and a first intermediate barrier layer. The n-side barrier layer is provided between the p-side barrier layer and the first semiconductor layer. The first intermediate barrier layer is provided between the barrier layers. The well layers include p-side and n-side well layers, and a first intermediate well layer. The p-side well layer is provided between the p-side barrier layer and the second semiconductor layer. The n-side well layer is provided between the n-side barrier layer and the first intermediate barrier layer. The first intermediate well layer is provided between the first intermediate barrier layer and the p-side barrier layer.

Abstract: According to one embodiment, a semiconductor light emitting device includes a first semiconductor layer of a first conductivity type and having a major surface, a second semiconductor layer of a second conductivity type, and a light emitting layer provided between the first and second semiconductor layers. The major surface is opposite to the light emitting layer. The first semiconductor layer has structural bodies provided in the major surface. The structural bodies are recess or protrusion. A centroid of a first structural body aligns with a centroid of a second structural body nearest the first structural. hb, rb, and Rb satisfy rb/(2·hb)?0.7, and rb/Rb<1, where hb is a depth of the recess, rb is a width of a bottom portion of the recess, and Rb is a width of the protrusion.