Abstract: An electro-optical transceiver system with controlled lateral light leakage and a method of making such a system includes a plurality of emitter devices and detector devices including at least one of each, arranged in a planar array for transmitting and receiving, respectively, energy in a predetermined wavelength and a blocking medium disposed interstitially of the devices and being absorbing at the predetermined wavelength for blocking energy at the predetermined wavelength laterally leaking from an emitter device to one or more detector devices.

Abstract: An electro-optical transceiver system with controlled lateral light leakage and a method of making such a system includes a plurality of emitter devices and detector devices including at least one of each, arranged in a planar array for transmitting and receiving, respectively, energy in a predetermined wavelength and a blocking medium disposed interstitially of the devices and being absorbing at the predetermined wavelength for blocking energy at the predetermined wavelength laterally leaking from an emitter device to one or more detector devices.

Abstract: A unit has an array of lasers having an emission surface through which beams can be emitted in a substantially vertical direction so as to define an emission side, drive electronics connected to a side opposite to the emission side of the array of lasers, and an array of modulators, located on the emission side of the array of lasers and connected to the drive electronics.

Abstract: A method of ensuring proper alignment between one optical device bearing unit and another optical device bearing unit involves creating a set of precisely placed and sized features for the one optical device bearing unit, creating a set of precisely placed and sized features for the other optical device bearing unit, the features being of a complementary pattern to enable the optical device bearing units to mate such that they are properly aligned with each other. An optical device unit is also described. The unit has multiple optical components, and a set of features sized and positioned to mate with complementary features of a different optical device unit so that when the units are brought together, the set of features and complementary features will ensure that the units are properly aligned with respect to each other.

Abstract: A method of integrating a chip with a backside active optical chip is described. The backside active optical chip has at least one optical device, having an active side, including an optically active region and an optically inactive region each abutting a substrate, a bonding side opposite the active side, and a device thickness. The method involves if the substrate has a substrate thickness in excess of 100 microns over the optically active region, thinning the substrate over the optically active region while leaving at least some substrate over the optically inactive region; bonding the optical chip to the electronic chip using a flip chip process; and creating access ways in the substrate over optically active regions. A hybrid electro-optical chip having an electronic chip and a backside active optical chip is also described, wherein the hybrid electro-optical chip is created by one of the described processes. A module is also described.

Abstract: A method and apparatus utilizing a multiple quantum well modulator/emitter/detector pixel in a bilinear array permits reading or writing to an optical disc in parallel such that information may either be written to or read from an optical disc within one revolution of the optical disc. Thus while existing DVD and CDROM systems operate by sensing the contents of a spiral track, parallel readout afforded by the multiple quantum well modulator/emitter/detector provides as much as 1,000:1 advantage over single detector systems, with the biasing of the modulator/emitter/detector device determining whether the device is an emitter, detector or modulator. The co-location of the modulator/emitter/detector in a single device permits arranging devices in a linear array which is disposed over the optical disc for the parallel read/write functions.

Abstract: A method of forming a guide for light in a high refractive index material involves forming a guiding structure into a surface of the material, treating the material with a reactive gas to cause the wall to become a cladding material having a relatively low refractive index, and after treating, filling the cavity with an optically transparent material having a refractive index sufficiently above that of the cladding. A light guiding device is also described. The light guiding device has a slab having a high refractive index, a guide located within the slab. The guide has a wall surface covered with a material, derived from the slab, having a first refractive index lower than the high refractive index, and a filler material having a second refractive index sufficiently higher than the first refractive index such that light entering the guide will be directed towards the second end.

Abstract: A ferrule has a body, peripherally dimensioned for receipt within a commercially available fiber optic connector, the body has a forward portion comprising a front side and a rear side, the front side defining a face of the ferrule, the rear side defining an inner surface. The forward portion has a large format array of fiber holes, each of the fiber holes in the array extending between the front side and the rear side and being sized to accept an optical fiber inserted therein, and the forward portion having a thickness, T, less than 3000 microns but at least a minimum thickness sufficient to support optical fibers inserted into the fiber holes. An optical connector, having a ferrule, and a fiber optic cable assembly are also described.

Abstract: An apparatus and method for optically interconnecting subsystems of a microprocessor system, whether co-located on a common wafer or divided among two or more wafers or substrates. Photo- transceiver arrays adjacent all or selected subsystems are optically interconnected to other subsystems for data transfer, enabled by protocol embedded in the CMOS circuitry in the respective substrates, enabling high speed and large bandwidth communications. Subsystems on a wafer can be located at some distance apart and communicate via the optical interconnect without adverse propagation delays. In a preferred embodiment a central processing unit (CPU) interfaces optically with a plurality of remote memory or co-processor subsystems.

Abstract: An electro-optical transceiver system with controlled lateral light leakage and a method of making such a system includes a plurality of emitter devices and detector devices including at least one of each, arranged in a planar array for transmitting and receiving, respectively, energy in a predetermined wavelength and a blocking medium disposed interstitially of the devices and being absorbing at the predetermined wavelength for blocking energy at the predetermined wavelength laterally leaking from an emitter device to one or more detector devices.

Abstract: A long-throw, tight focussing optical coupler has a first passive optical element capable of coupling light between an optical source and an optical destination and a second passive optical element, capable of coupling light between the optical source and the optical destination, located between the first passive optical element and one of the optical source or the optical destination such that, a light beam from the optical source will be transferred to the optical destination when the optical source and optical destination are spaced apart by a distance.

Abstract: A multi-wavelength laser array has a group of multiple lasers, each of the lasers in the group being constructed to emit at a specified wavelength within a range, the specified wavelength of one laser being different from the specified wavelength of the other lasers in the group. The lasers in the group are individually selectable so that, when emission at a particular wavelength is called for, a laser capable of providing the particular wavelength will be selected.

Abstract: An optical unit has multiple optical devices, a collimated coupler disposed relative to the multiple optical devices so that laser light can be transferred between at least two of the multiple optical devices and the collimated coupler without crosstalk, and a fused glass collimator, disposed within the collimated coupler, having multiple optical fibers arranged in a predetermined arrangement relative to the multiple optical devices so that the number of optical fibers is always equal to or greater than the number of optical devices on a use basis.

Abstract: A coupler adapter has a base and at least one alignment feature disposed upon the base. The at least one alignment feature is constructed for aligning a multi-fiber bundle to an opto-electronic module to permit transmission of optical signals between the multi-fiber bundle and optical devices within the opto-electronic module when the the opto-electronic module is larger in span than a spacing of alignment elements used in a commercial connector that holds the multi-fiber bundle.