Abstract: An apparatus can comprise an optical slab comprising a rigid substrate of substantially transmissive material. The apparatus can also comprise a WDM multiplexer to receive and combine a plurality of optical signals at different wavelengths to form a combined optical signal in the optical slab having an aggregate power. The apparatus can further comprise a broadcaster to distribute the combined optical signal from the optical slab to each of a plurality of different optical receivers with a fraction of the aggregate power of the combined optical signal.

Abstract: An optical transmission device includes a plurality of transmitting/receiving units provided on a substrate, each transmitting/receiving unit includes: an optical transmitter; an optical receiver; a polarization combiner/splitter; and a connection portion. In the connection portions which are arranged at the positions symmetrical to each other, a direction opposite, with respect to a virtual symmetry axis, to a direction of a main electric field on a plane perpendicular to an emission direction of an optical wave of the connection portion which is emitted from one of the connection portions to an outside is substantially orthogonal to a direction of a main electric field on a plane perpendicular to an emission direction of an optical wave of the connection portion which is emitted from the other of the connection portions to an outside.

Abstract: A multicore optical fiber with a reference section having a material defining a marked multicore glass optical fiber. The multicore fibers can be in groupings, for example, the groupings can be in the form of one of an optical fiber ribbon covered by a matrix, and a tight buffered cable. Fiber optic connectors can be assembled to the multicore optical fiber at either or both ends, and the colored portion can be associated with the optical fiber connector aligning the optical core elements with the optical connectors. The assembly can have at least one transceiver device with a transmit port and a receive port defining a two-way communication channel. Further aspects describe methods of manufacturing multicore fibers including application of curable coatings and reference sections.

Abstract: This optical receptacle has a first optical surface, a reflection surface, a second optical surface, a light separation part, and a third optical surface. On the first optical surface, light from a photoelectric conversion element is incident. The reflection surface reflects the light incident on the first optical surface. The second optical surface allows the light reflected by the reflection surface to be emitted toward an end surface of an optical transmission body. The light separation part separates the light reflected by the reflection surface, into monitor light and signal light. The third optical surface allows the monitor light to be emitted toward a detection element. The light separation part includes divided reflection surfaces and divided transmission surfaces. At least one of the divided transmission surfaces includes one or more widened portions each having a width larger than those of the other divided transmission surfaces.

Abstract: An optical connector includes a first connector portion having a first optical fiber, a second connector portion having a second optical fiber, and an aligning part. The second connector portion includes a fitting recessed portion in which the first connector portion is fitted. The second connector portion is joined closely in a direction orthogonal to axes of the first and second optical fibers by the first connector portion. The aligning part includes side walls of the fitting recessed portion gradually closing to each other in a fitting direction of the first connector portion to the fitting recessed portion, and side surfaces of the first connector portion inclined at the same inclination angle as the side walls of the fitting recessed portion.

Abstract: Optical fiber connectors and adapters are disclosed. A connector includes a flat pin assembly including a pin, a mechanical transfer ferrule boot disposed around at least a portion of the assembly, a housing disposed around at least a portion of the ferrule, and a low profile key. The housing includes first, second, top, and bottom sides. The first and second sides include a recess. The top side includes a groove. The low profile key includes a fastening mechanism configured to interlock with the groove. An optical fiber adapter includes first and second adapter ends each having one or more connecting arms. Each adapter end is configured to receive a separate optical fiber connector. The first and second adapter ends are configured to couple the separate optical fiber connectors to each other when received.

Abstract: Optical apparatus connecting a Silicon Photonics (SiP) device, which comprises multiple optical waveguides to an array of collimating lenses, configured to collimate light of the multiple optical waveguides into collimated beams. The optical apparatus includes a deflection element, distinct from the SiP device, including a light deflection surface which deflects light from the waveguides by an angle greater than 30 degrees, to the array of collimating lenses.

Abstract: Optical fiber connector assembly for a fiber optic cable includes an optical fiber having an end portion terminated with a ferrule and rod members. The optical fiber connector assembly includes: a ferrule holder configured to hold the end portion of the optical fiber, the ferrule and the rod members; a connector having an internal passageway for housing the ferrule holder; a locking member extending lengthwise and having an internal passageway for the end portion of the fiber optic cable. A pre-connectorized fiber optic cable includes a fiber optic cable and the optical fiber connector assembly mounted upon an end portion of the fiber optic cable.

Abstract: The present invention provides an optical modulator including a substrate and a phase modulation portion on the substrate. The phase modulation portion includes an optical waveguide comprised of a first clad layer, a semiconductor layer that is laminated on the first clad layer and has a refraction index higher than the first clad layer and a second clad layer that is laminated on the semiconductor layer and has a refraction index lower than the semiconductor layer, a first traveling wave electrode, and a second traveling wave electrode.

Abstract: An optical fiber storage module has a base, and a wall having an opening for paying out an optical fiber from inside the module. Spool retention fingers extend from the base. One or more fingers have a first rim at a first height above the base, and one or more fingers have a second rim at a second height above the base. A fiber supply spool has a hub, and an annular support disk inside the hub which forms a third rim. The spool is movable on the retention fingers between a first position where the third rim of the support disk is captured between the first and the second rims on the retention fingers, thus allowing the spool to turn when fiber is unwound, and (b) a second position where the spool engages one or more bosses formed on the module base to lock the spool from further rotation.

Abstract: A wiping system comprises a support table, a conveying unit configured to convey a wiping belt onto the support table, a carrier holding device configured to hold a carrier on which a plurality of fiber optic ferrules are mounted, a carrier pressing device configured to press the carrier on the support table with a plurality of front end faces of the fiber optic ferrules in direct contact with the wiping belt, and a first base on which the support table is mounted. The carrier holding device and the carrier pressing device are slidably mounted on the first base. The carrier pressed on the support table is movable back and forth relative to the support table in a first horizontal direction while the front end faces of the fiber optic ferrules remain in direct contact with the wiping belt.

Abstract: A color shifting illuminator includes a first luminescent material that absorbs first incident photons having an energy greater than or equal to a first threshold energy, and emits first photons with less energy than the first incident photons. The color shifting illuminator also includes a second luminescent material that absorbs second incident photons having an energy greater than or equal to a second threshold energy, and emits second photons with less energy than the second incident photons and less energy than the first photons. The first luminescent material and the second luminescent material are included in a waveguide, and the waveguide exhibits total internal reflection for the first photons and the second photons satisfying conditions for total internal reflection. An extraction region is coupled to the waveguide to emit the first photons and the second photons.

Abstract: An assembly for retaining and securing an optical cable includes a retaining element and a housing with an insertion seat. The retaining element has a first retaining wall, a second retaining wall and a connection part connecting the first and second retaining walls. The connection part is configured to resiliently deform upon insertion of the retaining element in the insertion seat to allow mutual approach of said first and second retaining walls.

Abstract: A photonic interconnect apparatus includes tunable light devices, multiplexers to multiplex optical signals produced by the tunable light devices onto optical paths, and a cyclic arrayed waveguide grating (AWG) to receive the optical signals over the optical paths, and to direct a given optical signal of the received optical signals to a selected output of a plurality of outputs of the cyclic AWG based on a wavelength of the given optical signal. A respective demultiplexer directs the given optical signal to a selected output of a plurality of outputs of the respective demultiplexer according to which coarse wavelength band the wavelength of the given optical signal is part of.

Abstract: A terminus for a fiber optic cable includes a ferrule. In one embodiment, an optical fiber of the cable passes through a central bore of the ferrule and is attached to a lens seated in a conical or cylindrical seat formed in an end surface of the ferrule by an epoxy. In a second embodiment, an optical fiber of the cable passes through the central bore of the ferrule. Next, a cap sleeve with a lens therein is slid over and attached to the ferrule such that the lens abuts or is attached to the optical fiber. In either embodiment, an inspection slot may optionally be formed in the ferrule and/or the cap sleeve to allow a technician to inspect the state of the attachment and/or abutment and/or spacing of the optical fiber and the lens.

Abstract: There are provided high power laser connectors and couplers and methods that are capable of providing high laser power without the need for active cooling to remote, harsh and difficult to access locations and under difficult and harsh conditions and to manage and mitigate the adverse effects of back reflections.

Abstract: A fiber distribution hub includes an exterior cabinet housing, a cabinet door, a distribution panel, and a parking door assembly. The distribution panel located in a cable holding volume defined by the exterior cabinet housing includes a fiber distribution field formed of connector adapters that provide a connection between feeder cables and distribution cables. The distribution panel includes a pivot axis opposite a swinging side, where the swinging side moves about the pivot axis between a partially accessible configuration and a fully accessible configuration. The parking door assembly moveably connects to the swinging side of the distribution panel. The parking door assembly includes a parking door including a connector holder retaining structure configured to retain a plurality of fiber optic connectors and a hinge structure that connects the parking door to the swinging side of the distribution panel.

Abstract: The disclosed embodiments generally relate to extruding multiple layers of micro- to nano-polymer layers in a tubular shape. In particular, the aspects of the disclosed embodiments are directed to a method for producing a Bragg reflector comprising co-extrusion of micro- to nano-polymer layers in a tubular shape.

Abstract: An optical interferometer based on multi-mode interference (MMI) devices includes an input port, an output port, a first MMI device connected to the input port at an input face of the first MMI device, a second MMI device connected to the first output port at an output face of the second MMI device. In the optical interferometer, an output face of the first MMI device and an input face of the second MMI device are directly connected, the first MMI device includes a first and a second self-imaging points at an interface between the first MMI device and the second MMI device, and a propagation axis of the second MMI device is tilted with respect to a propagation axis of the first MMI device, causing a path length difference between an upper optical path via the first self-imaging point and a lower optical path via the second self-imaging point.

Abstract: A doping optimized single-mode optical fiber with ultra low attenuation includes a core layer and cladding layers. The cladding layers has an inner cladding layer surrounding the core layer, a trench cladding layer surrounding the inner cladding layer, an auxiliary outer cladding layer surrounding the trench cladding layer, and an outer cladding layer surrounding the auxiliary outer cladding layer. The content of fluorine in the core layer is ?0.5 wt %, ?Ge?0.12%, ?n1?0.12%. The content of fluorine in the inner cladding layer is 0.5-1.5 wt %, ?n2??0.14%. The content of fluorine in the trench cladding layer is 1-3 wt %, ?n3??0.25%. The content of fluorine in the auxiliary outer cladding layer is 0.5-2 wt %, ?n4??0.14%. The outer cladding layer is a pure silicon dioxide glass layer and/or a metal-doped silicon dioxide glass layer.