Patents by Inventor William K. Bischel
William K. Bischel has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20020110335Abstract: Roughly described, a submount has a standoff structure protruding from its surface. An optical component is pressed against the standoff structure until tilt and planar non-uniformities are removed, and then bonded to the submount using an adhesive placed in the wells between the protrusions of the standoff structure. The standoff structure preferably has a total surface area contacting the optical component which is much smaller than the area by which the optical components overlap the submount. The optical component mounted in this manner can be an optical array component (including an optical fiber array), or a component having only a single optical port. A second optical component can be attached to the submount in the same manner, greatly simplifying the vertical alignment problems between the two components.Type: ApplicationFiled: February 14, 2001Publication date: August 15, 2002Inventors: David K. Wagner, Harald Guenther, William K. Bischel, Jim Weijian Li, Nina D. Morozova
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Publication number: 20020110328Abstract: An optical assembly, such as a multiple output diode laser pump source for EDFAs, is formed by pressing an optical array emitter chip against a standoff structure protruding from a submount such that the emitter chip deforms to match the curvature of the standoff structure. An IO chip is also juxtaposed against the standoff structure such that its optical receivers can receive optical energy from the emitter chip. The IO chip can provide various optical functions, and then provide an optical array output for coupling into an optical fiber array. The standoff structure preferably contacts the emitter chip over an aggregate contact area much smaller than the area by which the emitter chip overlaps the submount. The materials used for bonding the emitter chip and the IO chip to the submount are disposed in the recesses between standoffs and not on the contact surfaces of the standoff structure.Type: ApplicationFiled: February 14, 2001Publication date: August 15, 2002Inventors: William K. Bischel, David K. Wagner, Harald Guenther, Simon J. Field, Markus P. Hehlen, Richard B Tompane, Andrew T. Ryan, C. Geoffrey Fanning, Jim Weijian Li, Nina D. Morozova
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Patent number: 6434318Abstract: A device for variable attenuation of an optical channel includes an elongated core surrounded by a cladding. Optical energy propagating along the longitudinal axis of the core is normally confined thereto by the difference in refractive indices between the core and cladding. The thermo-optic coefficients of the core and cladding are closely matched such that waveguide confinement is substantially invariant with respect to ambient temperature. The device further includes a thermal source arranged above the core. The thermal source is operable to generate a temperature gradient of controllable magnitude along a vertical axis extending through the core. The temperature gradient causes reduction of the local refractive index within the core relative to surrounding regions of the cladding such that a portion of the optical energy is deflected away from the thermal source and extracted from the core.Type: GrantFiled: August 2, 2000Date of Patent: August 13, 2002Assignee: Gemfire CorporationInventors: William K. Bischel, Tony C. Kowalczyk
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Patent number: 6393172Abstract: Method for optical energy transfer and energy guidance uses an electric field to control energy propagation using a class of poled structures in solid material. The poled structures, which may form gratings in thin film or bulk configurations, may be combined with waveguide structures. Electric fields are applied to the poled structures to control routing of optical energy. Techniques include frequency-selective switchable- and adjustable-tunable reflection, splitting, directional coupling, frequency-tunable switching and efficient beam combining, as well as polarized beam combining. Adjustable tunability is obtained by a poled structure which produces a spatial gradient in a variable index of refraction along an axis in the presence of a variable electric field. In one embodiment, the present invention is a method of switching a grating which consists of a poled material with an alternating domain structure of specific period.Type: GrantFiled: December 21, 1998Date of Patent: May 21, 2002Assignee: Gemfire CorporationInventors: Michael J. Brinkman, David A. G. Deacon, William K. Bischel
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Publication number: 20020037129Abstract: A thermo-optic switch is operated in a novel near-impulse mode in which the drive pulse width is shorter than twice the diffusion time of the switch. The drive pulse width is less than the rise time of the steady-state optical response and also less than the rise time-of the deflection efficiency response to the applied drive pulse. The drive pulse can further include a sustaining segment following the initial short pulse segment, if it is desired to maintain the switch in an ON state for a longer period of time. A number of additional techniques are described for further reducing the response time of the switch. An array of thermo-optic switches operated in this manner can form a display which, due to the fast individual switch rise times, can operate at an overall fast refresh rate.Type: ApplicationFiled: June 29, 2001Publication date: March 28, 2002Applicant: Gemfire CorporationInventors: Michael J. Brinkman, William K. Bischel, Tony Kowalczyk, Lee L. Huang
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Patent number: 6351578Abstract: A thermo-optic switch is operated in a novel near-impulse mode in which the drive pulse width is shorter than twice the diffusion time of the switch. The drive pulse width is less than the rise time of the steady-state optical response and also less than the rise time of the deflection efficiency response to the applied drive pulse. The drive pulse can further include a sustaining segment following the initial short pulse segment, if it is desired to maintain the switch in an ON state for a longer period of time. A number of additional techniques are described for further reducing the response time of the switch. An array of thermo-optic switches operated in this manner can form a display which, due to the fast individual switch rise times, can operate at an overall fast refresh rate.Type: GrantFiled: August 6, 1999Date of Patent: February 26, 2002Assignee: Gemfire CorporationInventors: Michael J. Brinkman, William K. Bischel, Tony Kowalczyk, David R. Main, Lee L. Huang
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Publication number: 20020018636Abstract: A device for variable attenuation of an optical channel includes an elongated core surrounded by a cladding. Optical energy propagating along the longitudinal axis of the core is normally confined thereto by the difference in refractive indices between the core and cladding. The thermo-optic coefficients of the core and cladding are closely matched such that waveguide confinement is substantially invariant with respect to ambient temperature. The device further includes a thermal source arranged above the core. The thermal source is operable to generate a temperature gradient of controllable magnitude along a vertical axis extending through the core. The temperature gradient causes reduction of the local refractive index within the core relative to surrounding regions of the cladding such that a portion of the optical energy is deflected away from the thermal source and extracted from the core.Type: ApplicationFiled: August 1, 2001Publication date: February 14, 2002Applicant: Gemfire CorporationInventors: William K. Bischel, Tony C. Kowalczyk
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Publication number: 20020003928Abstract: An integrated optical microstructure includes a substrate carrying an optical waveguide and supporting a medium disposed to receive optical energy from the waveguide. The medium includes an optical re-radiator such as a phosphor, which re-radiates optical energy in response to optical energy received from the waveguide. The structure further includes a reflector disposed to redirect some of the input optical energy emanating from the medium back into the medium, to achieve spatial confinement of the input light delivered by the input waveguide. The structure can thereby increase the efficiency of the light conversion processes of re-radiating materials. An aperture in the reflector permits optical energy emitted by the re-radiator to emerge from the structure and to propagate in a preferred direction, such as toward a viewer or sensor.Type: ApplicationFiled: December 15, 2000Publication date: January 10, 2002Applicant: Gemfire CorporationInventors: William K. Bischel, David A.G. Deacon, Nigel J. Cockroft, Markus P. Hehlen, David K. Wagner, Richard B. Tompane, Simon J. Field
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Patent number: 6325553Abstract: A redundant optical connection system is manufactured in specially prepared form to allow optical connections to be made at a later step. In response to information specifying which of the optical sources are functional, further structure may be activated or introduced into the connection system which guides optical energy to optical outputs from only those of the sources that are functional. In one aspect of the invention, the preliminary form includes primary guiding structures coupling each of a plurality of primary optical sources to a respective application structure, and a secondary guiding structure coupled to a secondary optical source and terminating without yet coupling to any application structure. If the information indicates that one of the primary optical sources is non-functional, then structure can be added or activated which transfers optical energy from the secondary guiding structure into the primary guiding structure corresponding to the non-functional source.Type: GrantFiled: February 4, 2000Date of Patent: December 4, 2001Assignee: Gemfire CorporationInventors: David A. G. Deacon, Richard B. Tompane, William K. Bischel, Tony C. Kowalczyk
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Publication number: 20010031122Abstract: An optical structure is fabricated by forming an active layer including a photodefinable material on a substrate or on another underlying layer, forming an upper layer above the active layer, and then patterning the active layer by selective application of radiation through the upper layer. The upper layer is substantially transparent to radiation of the type required to activate the photodefinable material in the active layer.Type: ApplicationFiled: December 1, 2000Publication date: October 18, 2001Inventors: Hilary S. Lackritz, William K. Bischel, Tony C. Kowalczyk, Simon J. Field, Travis P.S. Thoms, Yeong-Cheng Lee
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Patent number: 6208791Abstract: An integrated optical microstructure includes a substrate carrying an optical waveguide and supporting a medium disposed to receive optical energy from the waveguide. The medium includes an optical re-radiator such as a phosphor, which reradiates optical energy in response to optical energy received from the waveguide. The structure further includes a reflector disposed to redirect some of the input optical energy emanating from the medium back into the medium, to achieve spatial confinement of the input light delivered by the input waveguide. The structure can thereby increase the efficiency of the light conversion processes of re-radiating materials. An aperture in the reflector permits optical energy emitted by the re-radiator to emerge from the structure and to propagate in a preferred direction, such as toward a viewer or sensor.Type: GrantFiled: April 19, 1999Date of Patent: March 27, 2001Assignee: Gemfire CorporationInventors: William K. Bischel, David A.G. Deacon, Nigel J. Cockroft, Markus P. Hehlen, David K. Wagner, Richard B. Tompane, Simon J. Field
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Patent number: 6167169Abstract: A method of scanning a plurality of display elements or pixels of a display and an apparatus capable of performing the method of scanning, allow energy propagating along a primary path to be diverted sequentially by a series of energy diverting devices to a plurality of secondary paths in a scanning direction depending upon the finite turn-on and turn-off times of the energy diverting devices.Type: GrantFiled: November 17, 1998Date of Patent: December 26, 2000Assignee: Gemfire CorporationInventors: Michael J. Brinkman, William K. Bischel
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Patent number: 6141465Abstract: A flat panel display is based on a new switching technology for routing laser light among a set of optical waveguides and coupling that light toward the viewer. The switching technology is based on poled electro-optical structures. The display technology is versatile enough to cover application areas spanning the range from miniature high resolution computer displays to large screen displays for high definition television formats. The invention combines the high brightness and power efficiency inherent in visible semiconductor diode laser sources with a new waveguide electro-optical switching technology to form a dense two-dimensional addressable array of high brightness light emissive pixels.Type: GrantFiled: June 13, 1997Date of Patent: October 31, 2000Assignee: Gemfire CorporationInventors: William K. Bischel, Michael J. Brinkman, David A. G. Deacon, Edward J. De Wath, Mark J. Dyer, Simon J. Field
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Patent number: 6118908Abstract: A flat panel display is based on a new switching technology for routing laser light among a set of optical waveguides and coupling that light toward the viewer. The switching technology is based on poled electro-optical structures. The display technology is versatile enough to cover application areas spanning the range from miniature high resolution computer displays to large screen displays for high definition television formats. The invention combines the high brightness and power efficiency inherent in visible semiconductor diode laser sources with a new waveguide electro-optical switching technology to form a dense two-dimensional addressable array of high brightness light emissive pixels.Type: GrantFiled: June 15, 1999Date of Patent: September 12, 2000Assignee: Gemfire CorporationInventors: William K. Bischel, Michael J. Brinkman, David A. G. Deacon, Edward J. DeWath, Mark J. Dyer, Simon J. Field
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Patent number: 6078704Abstract: A flat panel display is based on a new switching technology for routing laser light among a set of optical waveguides and coupling that light toward the viewer. The switching technology is based on poled electro-optical structures. The display technology is versatile enough to cover application areas spanning the range from miniature high resolution computer displays to large screen displays for high definition television formats. The invention combines the high brightness and power efficiency inherent in visible semiconductor diode laser sources with a new waveguide electro-optical switching technology to form a dense two-dimensional addressable array of high brightness light emissive pixels.Type: GrantFiled: January 20, 1999Date of Patent: June 20, 2000Assignee: Gemfire CorporationInventors: William K. Bischel, Michael J. Brinkman, David A. G. Deacon, Edward J. DeWath, Mark J. Dyer, Simon J. Field
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Patent number: 6049641Abstract: A redundant optical connection system is manufactured in specially prepared form to allow optical connections to be made at a later step. In response to information specifying which of the optical sources are functional, further structure may be activated or introduced into the connection system which guides optical energy to optical outputs from only those of the sources that are functional. In one aspect of the invention, the preliminary form includes primary guiding structures coupling each of a plurality of primary optical sources to a respective application structure, and a secondary guiding structure coupled to a secondary optical source and terminating without yet coupling to any application structure. If the information indicates that one of the primary optical sources is non-functional, then structure can be added or activated which transfers optical energy from the secondary guiding structure into the primary guiding structure corresponding to the non-functional source.Type: GrantFiled: February 24, 1998Date of Patent: April 11, 2000Assignee: Gemfire CorporationInventors: David A. G. Deacon, Richard B. Tompane, William K. Bischel, Tony C. Kowalczyk
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Patent number: 5978524Abstract: A flat panel display is based on a new switching technology for routing laser light among a set of optical waveguides and coupling that light toward the viewer. The switching technology is based on poled electro-optical structures. The display technology is versatile enough to cover application areas spanning the range from miniature high resolution computer displays to large screen displays for high definition television formats. The invention combines the high brightness and power efficiency inherent in visible semiconductor diode laser sources with a new waveguide electro-optical switching technology to form a dense two-dimensional addressable array of high brightness light emissive pixels.Type: GrantFiled: June 16, 1997Date of Patent: November 2, 1999Assignee: Gemfire CorporationInventors: William K. Bischel, Michael J. Brinkman, David A. G. Deacon, Edward J. DeWath, Mark J. Dyer, Simon J. Field
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Patent number: 5912997Abstract: A flat panel display is based on a new switching technology for routing laser light among a set of optical waveguides and coupling that light toward the viewer. The switching technology is based on poled electro-optical structures. The display technology is versatile enough to cover application areas spanning the range from miniature high resolution computer displays to large screen displays for high definition television formats. The invention combines the high brightness and power efficiency inherent in visible semiconductor diode laser sources with a new waveguide electro-optical switching technology to form a dense two-dimensional addressable array of high brightness light emissive pixels.Type: GrantFiled: June 16, 1997Date of Patent: June 15, 1999Assignee: Gemfire CorporationInventors: William K. Bischel, Michael J. Brinkman, David A.G. Deacon, Edward J. DeWath, Mark J. Dyer, Simon J. Field
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Patent number: 5911018Abstract: An extremely low-loss optical switch element includes a first waveguide segment having first and second regions longitudinally-adjacent with each other and having an index of refraction difference which is greater when the switch element is in an "on" state than when it is in an "off" state. The two regions have a common boundary which is oriented at an angle in the first waveguide so as to redirect optical energy through total internal reflection when the switch element is in the "on" state. The switch element further includes a second waveguide segment spaced from the first waveguide segment and disposed and oriented to guide optical energy redirected from the first waveguide segment when the switch element is in the "on" state.Type: GrantFiled: November 18, 1997Date of Patent: June 8, 1999Assignee: Gemfire CorporationInventors: William K. Bischel, Michael J. Brinkman, David A.G. Deacon, Edward J. DeWath, Mark J. Dyer, Simon J. Field
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Patent number: RE37809Abstract: One or more lasers are combined with optical energy transfer devices and energy guiding devices which use an electric field for control. The optical energy transfer devices may form gratings, mirrors, lenses and the like using a class of poled structures in solid material. The poled structures may be combined with waveguide structures. Electric fields applied to the poled structures control routing, reflection and refraction of optical energy. Adjustable tunability is obtained by a poled structure which produces a spatial gradient in a variable index of refraction along an axis in the presence of a variable electric field.Type: GrantFiled: April 1, 1998Date of Patent: July 30, 2002Assignee: Gemfire CorporationInventors: David A. G. Deacon, Simon J. Field, Michael J. Brinkman, William K. Bischel