Abstract: Disclosed is a laser module case having a snout disposed within a wall of the case, wherein the snout may allow alignment of a laser with an optical fiber after closure of the case. The snout has an inner end, outer end and longitudinal hollow. An optical fiber assembly, also with an inner end, outer end and longitudinal hollow, is disposed within the snout hollow. An inner flange secures the snout to the optical fiber assembly at their inner ends and an outer flange secures the snout to the optical fiber assembly at their outer ends. The optical fiber assembly is of a smaller cross-sectional diameter than the snout hollow so that it may move in an X and Y-direction. The optical fiber assembly may be aligned with a laser positioned within the case after the case is closed. The aligned fiber assembly may then be secured in position by the outer flange.

Abstract: An optoelectronic receiver having a variable transfer function to compensate for operational condition change. The receiver comprises a linear circuit having a tunable filter. A control circuit provides a signal to the tunable filter. The control circuit is connected to one or more sensors which sense one or more operational conditions. The control circuit signal is a function of the one or more sensed operational conditions. The control signal is input to the tunable filter which adjusts the linear circuit's transfer function based on the control signal. Further disclosed are an integrated circuit and optical communication system having the inventive optoelectronic receiver. A method for adjusting an optoelectronic signal in a receiver is also disclosed.

Abstract: A device, such as an optoelectronic device, including a submount and a cover, and a method of manufacture of such a device. The submount includes a substrate with a groove formed in the substrate. The substrate further includes at least one cavity formed in the substrate displaced from but in sufficiently close proximity to the groove so that a controlled amount of liquid adhesive, such as epoxy, in the cavity wicks into the groove when the cover is placed over the cavity and groove.

Abstract: The present invention relates to a multi-layer dopant barrier and its method of fabrication for use in semiconductor structures. In an illustrative embodiment, the multi-layer dopant barrier is disposed between a first doped layer and a second doped layer. The multi-layer dopant barrier further includes a first dopant blocking layer adjacent the first doped layer and a second dopant blocking layer adjacent the second doped layer. A technique for fabricating the multi layer dopant barrier is disclosed. A first dopant blocking layer is formed at a first temperature, and a second dopant blocking layer is formed at a second temperature over the first barrier layer.

Abstract: A method for bonding an oxide-containing member to an aluminum surface, includes the steps of: providing a substrate, wherein a portion of a surface of the substrate has aluminum thereon; positioning an oxide-containing member on the aluminum surface of the substrate; and bonding the oxide-containing member to the aluminum surface by pressing the oxide-containing member against the aluminum surface while simultaneously heating the interface between the oxide-containing member and the aluminum surface. The interface between the oxide-containing member and the aluminum surface is heated with a laser.

Abstract: The invention in accordance with one aspect is a method of determining aging of a light emitting device which is capable of selectively emitting light having different wavelengths corresponding to different channels for light transmission as a function of tuning current supplied to the device. A tuning current is applied to the device which results in a wavelength corresponding to a desired channel. The slope of a curve which is light power from the device as a function of tuning current is determined by dithering about the applied tuning current. The determined slope is compared with a prior determined value in order to detect any change from the prior value. The voltage derived from a light signal passing through an optical filter can also be measured and compared to a prior value. These values may be used to determine aging of the device and the filter.

Abstract: The invention is a semiconductor device, and a method of fabrication, where a waveguide layer in which light is propagated and an integral photodetector are formed in the device. A light absorbing layer of the photodetector includes a portion of the waveguide layer which is modified to absorb a portion of the light while transmitting the remainder of the light. Additional components, such as a laser, optical amplifier and modulator can be included with the photodetector.

Abstract: The invention is a semiconductor device and method of fabricating the device. The device includes a semiconductor substrate with an active region, and a low dielectric constant insulating layer formed over the substrate. An additional insulating layer is formed over the low dielectric constant layer by a low temperature deposition, such as ion beam assistance deposition. A metal layer can then be formed over the additional layer using lift-off techniques. The metal layer can be patterned to form a bond pad which may be displaced from the area over the active region. Wire bonds can be made on the bond pad using ultrasonic energy.

Abstract: The invention is an apparatus including a semiconductor laser device emitting light at least at a certain wavelength, and at least two reflectors external to the laser device and positioned to reflect the light to stabilize the wavelength.

Abstract: The invention is an assembly and method for bonding an optical component to a base member. The component is mounted to a block which includes a centerline extending between two opposing surfaces. A pair of stop members are included on the surface of the base member, and these members serve to pin the centerline during heating and cooling of the assembly so that the position of the component is controlled.

Abstract: The invention is an optical device and method of fabrication which mitigates the problem of Zn migration in the cladding and waveguide regions. The contact region includes carbon, which acts as a p-type dopant in ternary semiconductor material. The contact layer is made of InGaAs or InGaAsP, and the invention is most advantageously used in an electroabsorption modulated laser or capped mesa buried heterostructure laser.

Abstract: The invention in one aspect is an optical modulator which includes a waveguide region of semiconductor material. In order to achieve a gradual, essentially linear transfer function, the bandgap of the waveguide region is graded along the direction of light propogation or perpendicular thereto. In accordance with another aspect, the invention is an electroabsorption modulated laser where the portion of the waveguide region defining the modulator has a graded bandgap. In accordance with a method aspect, the waveguide region of the modulator is grown using a mask having a varying width to achieve the graded bandgap.

Abstract: A pack houses an electrical and/or electronic board. The pack includes positioning structures that support the board. At least one of the positioning structures provides an electrically conductive path to an element located on the board, and has elastic properties that assist the positioning structure to maintain mechanical and electrical contact with the element.

Abstract: The invention is an optical waveguide device and a method for forming the device which provides enhanced stability. The device includes a pyroelectric substrate such as lithium niobate where the bulk resistivity of at least a portion of the substrate is reduced to 1013 ohm cm or less by heating the substrate in a reducing atmosphere. This causes the substrate to be less susceptible to temperature variants which can otherwise result in dc bias drift and variation.

Abstract: A method of depositing material on a substrate using a shadow mask. The mask includes a plurality of etched features which correspond to a plurality of features in the substrate. Spheres are provided in the features of the mask or substrate so that the mask and substrate are aligned when each of the spheres occupy both of the corresponding features in the mask and substrate.

Abstract: The invention is an optical assembly which includes at least two optical fibers, each having a coated portion and a bare portion at one end. A spacer is placed between coated portions of the fibers so as to produce a gradual bending of the bare portions and thereby reducing stress on the bare portions.

Abstract: The invention is a beamsplitter and an optical module including a beamsplitter where the beamsplitter comprising a body having two major surfaces. At least one major surface of the body is coated so that the said major surface reflects incident light of a desired wavelength which is primarily a first polarization. The other major surface reflects incident light of the desired wavelength which is primarily an orthogonal polarization without the element substantially changing the polarization of the light as it passes through the element.

Abstract: The invention is a method and resulting device which provides a strong bond between a silicon substrate and an oxide component mounted within a cavity in the substrate. A layer of titanium, for example, is deposited on the walls of the cavity, followed by deposition of a layer of aluminum. The structure is preferably annealed to form titanium silicide and titanium-aluminum interface layers. The component is then bonded to the aluminum layer.

Abstract: The invention is a laser assembly for reducing distortion ripple. The assembly includes a spherical lens which has a portion of its surface made optically asymmetric to prevent multiple reflections of scattered light within the lens.

Abstract: An optical transceiver assembly for use in a bidirectional system includes an optical fiber to which an outgoing optical signal is coupled. To reduce reflections from the end face of the fiber, the end face is beveled at an acute angle .phi.' to the normal to the fiber axis, and the fiber axis is tilted at an acute angle .theta. to the transmission axis. Preferably, .phi.'.apprxeq.2.theta.. In this manner, crosstalk is reduced without significantly sacrificing coupling efficiency.