An optical semiconductor device outputting a predetermined wavelength of laser light includes a quantum well active layer positioned between a p-type cladding layer and an n-type cladding layer in thickness direction. The optical semiconductor device includes a separate confinement heterostructure layer positioned between the quantum well active layer and the n-type cladding layer. The optical semiconductor device further includes an electric-field-distribution-control layer positioned between the separate confinement heterostructure layer and the n-type cladding layer and configured by at least two semiconductor layers having band gap energy greater than band gap energy of a barrier layer constituting the quantum well active layer. The optical semiconductor device is applied to a ridge-stripe type laser.

A light emission module includes a first light emission unit that includes a first light emission device and emits first light. The first light emission device includes a plurality of first light emission portions, each including a light emission surface, where light from a plurality of first light emission elements is emitted, a heat dissipation surface provided opposite to the light emission surface, and a connection portion being positioned between the light emission surface and the heat dissipation surface and including a wiring mounting surface where the light emission elements are electrically connected. The light emission module further includes a first optical member that reflects the first light, a housing including a base member where the first light emission unit and the first optical member are disposed and a lid member surrounding the light emission device surrounding the first light emission unit and the first optical member that are disposed on the base member, and a heat sink being connected to the heat dissipation surface and including a mounting surface where the first light emission device is mounted. The wiring mounting surface extends upward upper than a first upper surface of the housing, and a portion of the wiring mounting surface is exposed to the outside of the housing.

A light emitting device includes: a base having a bottom face and a lateral part surrounding the bottom face and extending upwards from the bottom face, wherein the lateral part comprises a first stepped portion and a second stepped portion facing the first stepped portion; a first semiconductor laser element disposed on the bottom face and located between the first stepped portion and the second stepped portion in a top view, wherein the first semiconductor laser element is configured to emit light towards the second stepped portion; a first wiring region located on the first stepped portion; and one or more first wires, each having a first end that is connected to the first wiring region. At least one of the one or more first wires is electrically connected to the first semiconductor laser element.

To provide an optical communication connector, an optical transmitter, an optical receiver, an optical communication system, and an optical communication cable that make it possible to prevent reduction in communication quality at low cost. An optical communication connector according to the present technology is capable of spatial optical coupling, and the optical communication connector includes a first lens and a second lens. The first lens magnifies light emitted from a light emitter. The second lens shapes light incident from the first lens and outputs the shaped light.

To provide an optical communication connector, an optical transmitter, an optical receiver, an optical communication system, and an optical communication cable that make it possible to prevent reduction in communication quality at low cost. An optical communication connector according to the present technology is capable of spatial optical coupling, and the optical communication connector includes a first lens and a second lens. The first lens magnifies light emitted from a light emitter. The second lens shapes light incident from the first lens and outputs the shaped light.

An optical apparatus includes: an optical component opposed to and spaced apart from a light-emitting surface through which laser light is emitted; a case that houses a semiconductor laser element and the optical component and includes an introduction port for introducing gas and an exhaust port for exhausting the gas; and a flow passage section (i.e., a tubular body) including a spray port for spraying the semiconductor laser element with the gas introduced from the introduction port.

A semiconductor laser device includes: a package includes a recess and an upper surface that has an outer peripheral surface and a bonding surface positioned between the recess and the outer peripheral surface, the bonding surface having inner corners on the recess side and outer corners on the outer peripheral surface side; at least one semiconductor laser element disposed in the recess of the package; and a light-transmissive member bonded to the bonding surface of the package. The radius of curvature of inner corners is greater than the radius of curvature of outer corners.

A semiconductor laser device includes: a package includes a recess and an upper surface that has an outer peripheral surface and a bonding surface positioned between the recess and the outer peripheral surface, the bonding surface having inner corners on the recess side and outer corners on the outer peripheral surface side; at least one semiconductor laser element disposed in the recess of the package; and a light-transmissive member bonded to the bonding surface of the package. The radius of curvature of inner corners is greater than the radius of curvature of outer corners.

A light-emitting device includes: a semiconductor laser element; a package; an optical member fixed to the package; and a first adhesive and a second adhesive fixing the optical member to the package, the second adhesive having a better resistance to light than the first adhesive. The package has an emission surface through which light from the semiconductor laser element exits the package. In the optical member, one or more first bonding regions to which the first adhesive is bonded and one or more second bonding regions to which the second adhesive is bonded are located at positions that are closer to an incidence surface of the optical member than to an emission surface of the optical member. In the optical member, the one or more first bonding regions and the one or more second bonding regions have a light transmittance of 80% or more.

A light-emitting device includes: a semiconductor laser element; a package; an optical member fixed to the package; and a first adhesive and a second adhesive fixing the optical member to the package, the second adhesive having a better resistance to light than the first adhesive. The package has an emission surface through which light from the semiconductor laser element exits the package. In the optical member, one or more first bonding regions to which the first adhesive is bonded and one or more second bonding regions to which the second adhesive is bonded are located at positions that are closer to an incidence surface of the optical member than to an emission surface of the optical member. In the optical member, the one or more first bonding regions and the one or more second bonding regions have a light transmittance of 80% or more.