Abstract: In various embodiments, free-space optical collimator and multi-channel wavelength division multiplexers including free-space optical collimators are provided. In one embodiment, for example, a free-space optical collimator includes a base having a length, a generally flat bottom surface and a top surface. A groove is disposed along the top surface of the base extending through the length of the base. A lens is disposed within the groove of the base and a fiber optic pigtail is disposed generally adjacent to a focal point of the lens. The lens and fiber optic pigtail are aligned within the groove to reduce an off-angle offset of an optical light signal propagating through the free-space optical collimator. In other embodiments, a process of producing a free-space optical collimator is also provided.

Abstract: An optical modulator includes multiple segments including modulator segments and a Radio Frequency (RF) crossing segment where RF lines extending a length of the modulator cross one another. The present disclosure includes optimization of one or more of a geometry of the RF crossing and a location of the RF crossing segment along the length. The geometry is selected so that the RF crossing segment appears as another segment having similar characteristics as modulator segments. The location of the RF crossing segment is selected to balance out fabrication error and phase efficiency.

Abstract: A connector device includes a first connector part and a second connector part. The first connector part has a first outer housing and a first sub-assembly accommodated in the first outer housing. The first sub-assembly has a first ferrule and a first latch member fastening the first sub-assembly to the first outer housing. The second connector part has a second outer housing and a second sub-assembly accommodated in the second outer housing. The second sub-assembly having a second ferrule and a second latch member fastening the second sub-assembly to the second outer housing. The second outer housing mating with the first outer housing in a state of coupling the first connector part to the second connector part.

Abstract: A wavelength demultiplexing device configured so as to spatially distributing the spectral contributions of an incident light beam, when in use, and which includes a linear waveguide and a planar waveguide, formed in a coplanar way and adapted to be optically coupled with one another along a coupling line, by evanescent coupling. Such a device may further include diffraction gratings located in the planar waveguide, to extract light out of the latter.

Abstract: Described herein is a system for directing light over two dimensions. In a first embodiment, an optical beam director includes a wavelength router, such as an optical interleaver, optically coupled to an array of dispersive elements, such as free-space diffractive couplers. In a second embodiment, an optical beam director includes a diffractive element optically coupled to a 1D-to-2D spatial interleaver.

Abstract: A fiber optic connector having a push/pull tab wherein the push/pull tab travel is limited by an internal stop to release a connector from a receptacle, and the push/pull tab is releasably secured from connector. The push/pull tab has a plural of securing protrusions that secure the tab to the connector housing.

Abstract: The present disclosure discloses an anti-cross-lighting structure. The anti-cross-lighting structure includes a support frame, a plurality of light-guiding elements located beside the support frame, and a shielding piece mounted on the support frame. The light-guiding elements are arranged on a same side of the support frame and forms at least one group. The shielding piece wraps over the light-guiding elements. The shielding piece includes a number of middle blocking portions. Each middle blocking portion isolates the light-guiding elements which are adjacent to each other. The anti-cross-lighting structure of the present disclosure effectively avoids the cross-lighting phenomenon and also has a stable structure.

Abstract: Disclosed is an optical fiber illumination apparatus configured for ensuring high light efficiency and uniform luminosity when displaying an illumination pattern with flexible optical fibers in fiber optic lighting.

Abstract: A device for providing a 1D line of an image is disclosed. The device is based on a thin slab waveguide coupled to a beam redirecting device such as a tiltable mirror MEMS scanner, a waveguide-based phased array, or a waveguide-based optical switch switching image light between waveguides of a waveguide array coupled to a collimating element formed in the low-mode slab waveguide. The image may be formed by scanning a collimated beam propagating in the slab waveguide, or by forming the 1D singular distribution of brightness at a same time. The device may be used in a near-eye display for forming a 2D image in angular domain.

Abstract: A method for adjusting an optical source used for fabricating an optical receiver comprising a signal beam input port, a polarization beam splitter, and signal generation units, is disclosed. The optical source generates a reference beam by combining first and second beams having polarization directions orthogonal each other. The reference beam is introduced to the signal beam input port to measure a first size of an electric signal generated in one of the signal generation units. A half-wavelength plate is disposed in an optical path between the beam splitter and the one of the signal generation units. After that, the reference beam is introduced to the signal beam input port to measure a second size of an electric signal generated in the one of the generation units. At least one of the first and second beams is adjusted such that the first size and the second size become close to each other.

Abstract: A method for forming a package structure is provided. The method includes disposing an optical component and a waveguide over a substrate, forming a passivation layer over the substrate and covering the optical component and the waveguide, and forming a reflector including a metal layer and a first semiconductor layer on the passivation layer, wherein the metal layer and the first semiconductor layer are in contact with the passivation layer.

Abstract: Aspects of the disclosure relate to apparatus for the fabrication of waveguides. In one example, an angled ion source is utilized to project ions toward a substrate to form a waveguide which includes angled gratings. In another example, an angled electron beam source is utilized to project electrons toward a substrate to form a waveguide which includes angled gratings. Further aspects of the disclosure provide for methods of forming angled gratings on waveguides utilizing an angled ion beam source and an angled electron beam source.

Abstract: An optical communication module made with transparent packaging material which locates elements and provides protection against contaminants and EMI includes a printed circuit board; a photoelectric element disposed on the printed circuit board; an optical-fiber connector disposed on the printed circuit board, corresponding to the photoelectric element; the transparent packaging material covers the printed circuit board, the photoelectric component and the optical-fiber connector. An electromagnetic shielding layer covers the transparent packaging material. A method of manufacturing same is also disclosed.

Abstract: An optical connector system includes: a first optical connector including a first ferrule and a first housing that houses the first ferrule; and a second optical connector including a second ferrule that connects to the first ferrule, a second inner housing that houses the second ferrule, and a second outer housing that houses the second inner housing. The second optical connector detachably connects to the first optical connector. The first housing includes a latch receptacle and a latch releaser. The second inner housing includes a front latch that latches to the latch receptacle and a rear latch that latches to the second outer housing.

Abstract: An optical fiber guide part fixes optical fibers optically connected to optical waveguides of an optical waveguide device and is adhesively fixed to the optical waveguide device. The optical fiber guide part includes a V-grooved substrate, in a surface of which plural V-grooves are formed in parallel to one another, a lid member fixed to a top of the V-grooved substrate such that the V-grooves are exposed in a neighborhood of at least that end face of the V-grooved substrate which is on a side of the optical waveguide device, and a lid member fixed to an exposed part of the V-grooves of the V-grooved substrate, pressing, from above, the optical fibers inserted in guide holes formed by the V-grooves and the lid member placed on the V-grooves.

Abstract: The optical module according to the present invention includes a photoelectric converter and an optical receptacle. The optical receptacle includes a first optical surface, a second optical surface, a transmission and reflection part, a recess, and a third optical surface. The transmission and reflection part is secured to the inner surface of the recess at a position that does not coincide with the optical path of signal light. The transmission and reflection part transmits the signal light incident on the first optical surface toward the second optical surface. The transmission and reflection part reflects the received light incident on the second optical surface toward the third optical surface. When viewed along a direction normal to a substrate, the optical path in the recess is inclined relative to the optical path between the second optical surface and the recess.

Abstract: Provided is an optical transceiver module, comprising a housing, a substrate, an optical receiving device and a plurality of optical transmitting devices. The substrate is disposed in the housing. The optical receiving device is disposed on the substrate. The plurality of optical transmitting devices are connected to the substrate, and the optical transmitting devices are arranged in an alternating manner. The optical transceiver module effectively utilizes the internal space thereof for a compact design and can have a simple structure for manufacturing.

Abstract: The present disclosure relates to polarization rotator-splitters that include oxide claddings. One example embodiment includes a device. The device includes a first waveguide. The first waveguide includes a first end configured to receive electromagnetic waves having a first polarization with a first mode-order and electromagnetic waves having a second polarization. The first waveguide also includes a mode-conversion section configured to convert electromagnetic waves having the second polarization into electromagnetic waves having the first polarization with a second mode-order. Additionally, the device includes a second waveguide. The second waveguide also includes a coupling section configured such that electromagnetic waves having the first polarization with the second mode-order are converted into electromagnetic waves having the first polarization with the first mode-order and coupled from the coupling section of the first waveguide into the coupling section of the second waveguide.

Abstract: A factory processed and assembled optical fiber arrangement is configured to pass through tight, tortuous spaces when routed to a demarcation point. A connector housing attaches to the optical fiber arrangement at the demarcation point (or after leaving the tight, tortuous spaces) to form a connectorized end of the optical fiber. A fiber tip is protected before leaving the factory until connection is desired.

Abstract: A light coupling element including a groove and a light redirecting member is described. The groove is for receiving and aligning an optical waveguide and incudes an open front end and a back end. The light redirecting member includes an input side for receiving light from an optical waveguide received and supported in the groove and a light redirecting side for changing a direction of light received from the input side. The groove may include a bottom surface extending between the front and back ends of the groove and including a raised bottom surface portion raised upwardly relative to an unraised bottom surface portion. The unraised bottom surface portion of the bottom surface may be disposed between the raised bottom surface portion of the bottom surface and the input side of the light redirecting member. Optical coupling assemblies including the light coupling element and an optical waveguide are described.