Diffraction Grating (e.g., Bragg) Patents (Class 385/10)
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Patent number: 7333685Abstract: Low loss, reliable variable optical attenuators and 1×2 switches and polarization insensitive low loss, reliable variable optical attenuators and 1×2 optical switches are described. In one embodiment, a system of the present invention includes a polarization separating sub-system a polarization recombining sub-system and one or more switchable volume diffraction gratings to provide polarization insensitive low loss, reliable variable optical attenuators and 1×2 optical switches.Type: GrantFiled: November 24, 2003Date of Patent: February 19, 2008Assignee: Avago Technologies Fiber IP (Singapore) Pte. Ltd.Inventors: Thomas W. Stone, John C. Kralik
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Patent number: 7330614Abstract: An exemplary optical apparatus comprises: an optical element having multiple sets of diffractive elements; and a photodetector. The diffractive elements of each set are collectively arranged so as to comprise corresponding spectral and spatial transformation information for each set. At least two of the sets differ with respect to their corresponding spectral and spatial transformation information. The diffractive elements of each of the sets are collectively arranged so as to transform a portion of an input optical signal into a corresponding output optical signal according to the corresponding spectral and spatial transformation information. At least one photodetector is positioned for receiving at least one of the corresponding output optical signals.Type: GrantFiled: December 9, 2005Date of Patent: February 12, 2008Assignee: LightSmyth Technologies Inc.Inventors: Thomas W. Mossberg, Dmitri Iazikov, Christoph M. Greiner
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Patent number: 7315664Abstract: A method for labeling or coding optical conduits is disclosed. The method includes providing an optical conduit, and utilizing reflected light resulting from the transmission of at least one light pulse along the optical conduit to generate a multi-digit code. Still further, the method includes utilizing the multi-digit code to distinguish the optical conduit from other optical conduits. The utilization of Bragg gratings to code or label optical conduits with a unique multi-digit code is also disclosed.Type: GrantFiled: June 8, 2004Date of Patent: January 1, 2008Assignee: The Boeing CompanyInventor: Thomas L. Weaver
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Patent number: 7308161Abstract: A wavelength selective switch device is disclosed that includes an elongated signal communication path extending from a first end of the device to a second end of the device. The signal communication path extends through a plurality of regions of varying indices of refraction, and the plurality of regions includes adjustable regions that are each coupled to an adjustable voltage source for changing a voltage potential across each of the adjustable regions such that the index of refraction of said adjustable regions may be changed by changing the voltage potential across each adjustable region.Type: GrantFiled: November 15, 2005Date of Patent: December 11, 2007Assignee: Massachusetts Institute of TechnologyInventor: Edward H. Sargent
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Patent number: 7308162Abstract: An intrinsic Fabry-Perot optical sensor includes a thin film sandwiched between two fiber ends. When light is launched into the fiber, two reflections are generated at the two fiber/thin film interfaces due to a difference in refractive indices between the fibers and the film, giving rise to the sensor output. In another embodiment, a portion of the cladding of a fiber is removed, creating two parallel surfaces. Part of the evanescent fields of light propagating in the fiber is reflected at each of the surfaces, giving rise to the sensor output. In a third embodiment, the refractive index of a small portion of a fiber is changed through exposure to a laser beam or other radiation. Interference between reflections at the ends of the small portion give rise to the sensor output. Multiple sensors along a single fiber are multiplexed using an optical time domain reflectometry method.Type: GrantFiled: September 8, 2003Date of Patent: December 11, 2007Assignee: Virginia Tech Intellectual Properties, Inc.Inventor: Anbo Wang
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Patent number: 7286764Abstract: An optical add and drop multiplexer system comprising a first module for providing a first signal; a second module for providing a second signal; and a modulator for receiving a channel of the first signal at a first location, the first location configured to actuate between a first configuration and a second configuration, wherein the modulator directs the channel of the first signal as an output signal when the first location is in the first configuration. The modulator may direct the channel of the first signal as a dropped signal when the first location is in the second configuration. The modulator may also receive a channel of the second signal from the second module at a second location configured to independently actuate between the first configuration and the second configuration.Type: GrantFiled: February 3, 2003Date of Patent: October 23, 2007Assignee: Silicon Light Machines CorporationInventors: Jahja I. Trisnadi, Clinton B. Carlisle
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Patent number: 7277604Abstract: An apparatus for inducing a modification of the index of refraction of a substrate sensitive to electromagnetic radiation. The apparatus is capable of generating a first beam of electromagnetic radiation and a second beam of electromagnetic radiation that is different from the first beam. The first and the second beams converge toward a treatment area on the substrate, which is illuminated with electromagnetic radiation. The first beam and the second beam interact to create an interference pattern over a limited portion of the treatment area.Type: GrantFiled: December 12, 2003Date of Patent: October 2, 2007Assignee: Lxsix Photonics inc.Inventors: Claude Beaulieu, Paul Lefebvre, Gilles L. Tourte, André R. Vincelette
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Patent number: 7269306Abstract: A system for exciting flexural waves on an optical fiber (102) is provided. The system includes a substrate (114, 118), an actuator (106), and a mechanical optical fiber coupling (104). The actuator is formed of an electromechanical transducer material. The actuator is mounted on the substrate. The mechanical optical fiber coupling (for example, an adhesive media) forms a secure mechanical connection between the actuator and the optical fiber. The mechanical optical fiber coupling is configured for communicating mechanical vibrations from the actuator to the optical fiber. However, it should be understood that the mechanical optical fiber coupling is exclusive of a tapered horn.Type: GrantFiled: June 28, 2006Date of Patent: September 11, 2007Assignee: Harris CorporationInventors: Paul B. Koeneman, Timothy E. Dimmick, Kevin R. Harper, Curtis R. Niemeier, Todd E. Deese, Paul Pilipovich
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Patent number: 7251397Abstract: An encoder according to the present invention is an encoder for encoding an optical wavelength-multiplexed signal compliant with optical CDMA into a code having a code pattern, including: L optical fibers 36 and 42 (where L is an integer equal to or greater than two) each having a plurality of gratings 37 to 47; and a circulator 52 for coupling the plurality of optical fibers 36 and 42. The code pattern contains time bins t1 to t3. A plurality of wavelengths ?1, ?4 and ?5 are assigned to the time bin t1. If a sum of an optical path difference in each optical fiber from the grating which reflects the optical signal of the wavelength ?1 to the grating which reflects the optical signal of the wavelength ?4 is calculated for all of the optical fibers 36 and 42, the sum equals zero.Type: GrantFiled: June 1, 2006Date of Patent: July 31, 2007Assignee: Matsushita Electric Industrial Co., Ltd.Inventors: Jingo Adachi, Akihiro Itoh, Shinichi Wakabayashi
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Patent number: 7242821Abstract: An optical mode converter comprising a slow wave electrode structure and including Schottky barriers for preventing an accumulation of free carriers in the optical waveguide region of the converter. The Schottky barriers are also used for suppressing higher order modes in the waveguide. Low refractive index insulators are used to allow efficient driving of the device without hindering the impedance or the microwave index of the optical mode converter. Two-photon absorption processes are eliminated through the use of a waveguide semiconductor material having a bandgap of at least twice the photon energy of the light beam propagating through the optical mode converter.Type: GrantFiled: September 29, 2004Date of Patent: July 10, 2007Assignee: Versawave Technologies Inc.Inventors: Jeffrey D. Bull, Hiroshi Kato, Nicolas August Fleming Jaeger, Pinghe Lu
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Patent number: 7233710Abstract: According to embodiments of the present invention, an ultra high speed miniature image acquisition system based on a scanning light beam for use with clinical endoscopic imaging applications, for example, is disclosed. In one embodiment, the image acquisition system may include a horizontal beam deflector disposed in an electro-optic polymer waveguide may disperse an incident light beam into a spectrum in a horizontal direction. A vertical beam deflector disposed in the waveguide and optically coupled to the horizontal beam deflector may deflect the horizontally dispersed spectrum in a vertical direction. An electrical charge may be applied to the electro-optic polymer.Type: GrantFiled: February 28, 2005Date of Patent: June 19, 2007Assignee: University of WashingtonInventors: Wei-Chih Wang, Per G. Reinhall
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Patent number: 7218815Abstract: An athermal arrayed-waveguide grating is disclosed and includes an input waveguide for inputting two or more optical signals from one exterior side, a grating array for separating the optical signals into different wavelengths of light, a first slab, formed with two layers and having different refractive indices from each other, for connecting the input waveguide with the grating array, a second slab for causing the different light wavelengths separated at the grating array to be imaged on an egress surface thereof, and an output waveguide array for outputting each light wavelength imaged on the egress surface of the second slab to the other exterior side in the form of a separated channel.Type: GrantFiled: July 23, 2003Date of Patent: May 15, 2007Assignee: Samsung Electronics Co., Ltd.Inventors: Jeong-Hwan Song, Kyong-Shik Lee, Oh-Dal Kwon, Sun-Tae Jung, Myong-Won Kim, Joon-Yong Cho, In-Jae Lee, Bang-Weon Lee, Seung-Wan Lee
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Patent number: 7215838Abstract: Resistive heaters formed in two mask counts on a surface of a grating of a thermo optic device thereby eliminating one mask count from prior art manufacturing methods. The resistive heater is comprised of a heater region and a conductive path region formed together in a first mask count from a relatively high resistance material. A conductor formed from a relatively low resistance material is formed directly on the conductive path region in a second mask count. Thermo optic devices formed by these two mask count methods are also described.Type: GrantFiled: August 30, 2004Date of Patent: May 8, 2007Assignee: Micron Technology, Inc.Inventors: Gurtej Singh Sandhu, Guy T. Blalock
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Patent number: 7212700Abstract: The invention provides an electro-optic hybrid circuit board having an optical waveguide superposed on a wiring circuit board, the electro-optic hybrid circuit board comprising: an insulating layer; a conductor pattern formed on the insulating layer; an undercladding layer formed on the conductor pattern-having insulating layer so as to surround the conductor pattern; a core layer formed on the undercladding layer; and an overcladding layer formed to cover the core layer and the undercladding layer.Type: GrantFiled: October 26, 2005Date of Patent: May 1, 2007Assignee: Nitto Denko CorporationInventors: Ryuusuke Naitou, Hideyuki Usui, Amane Mochizuki
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Patent number: 7209603Abstract: The device comprises an optical waveguide and an acoustic wave generating device. The waveguide has an optical band gap and a sharp electronic transition (e.g. an excitonic transition) in the band gap, and the acoustic wave generating device generates acoustic waves within the waveguide. Light passing through the waveguide is of a frequency within the band gap of the waveguide and is nearly resonant with the sharp electronic transition. The wave generating device is arranged to generate acoustic waves so as to induce optical band gas in the polariton spectrum, thereby affecting the transmission of the light passing through the waveguide, the transmission of which is thereby affected.Type: GrantFiled: September 4, 2002Date of Patent: April 24, 2007Assignees: University College Cardiff Consultants Limited, Cambridge University Technical Services LimitedInventors: Peter Brent Littlewood, Alexander L. Ivanov
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Distributed optical structures with improved diffraction efficiency and/or improved optical coupling
Patent number: 7194164Abstract: An optical apparatus comprises a planar optical waveguide having at least one set of diffractive elements and confining in at least one transverse spatial dimension optical signals propagating therein. Each diffractive element set routes, between corresponding input and output optical ports, a corresponding diffracted portion of an input optical signal propagating in the waveguide that is successively incident on the diffractive elements and is diffracted by the diffractive element set. The optical signals propagate in the waveguide in corresponding diffractive-region optical transverse modes in regions where the diffractive elements are present, and in corresponding non-diffractive-region optical transverse modes in regions where the diffractive elements are absent.Type: GrantFiled: July 22, 2004Date of Patent: March 20, 2007Assignee: LightSmyth Technologies IncInventors: Dmitri Iazikov, Christoph M. Greiner, Thomas W. Mossberg -
Patent number: 7184616Abstract: Fiber Bragg writing devices comprising solid state lasers are provided. The solid state lasers comprise optical parametric oscillators and emit moderate peak-power output beams at wavelengths which are suitable for efficient production of fiber Bragg gratings without causing embrittlement of the optical waveguide. These solid state lasers generate output beams with wavelengths of approximately 240 nm, in order to match the primary absorption peak in the ultraviolet range for a typical optical waveguide. Some of these solid state lasers generate tunable wavelength beams using an optical parametric oscillator (“OPO”), then generate harmonics of these tunable beams. Other lasers mix the tunable beam with fixed wavelengths derived from the pump laser to reach the desired output wavelength.Type: GrantFiled: October 29, 2001Date of Patent: February 27, 2007Assignee: Aculight CorporationInventors: Roy M. Mead, Charles I. Miyake
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Patent number: 7184627Abstract: An optical wavelength grating coupler incorporating one or more distributed Bragg reflectors (DBR) or other reflective elements to enhance the coupling efficiency thereof. The grating coupler has a grating comprising a plurality of scattering elements adapted to scatter light along a portion of an optical path, and the one or more DBRs are positioned with respect to the grating such that light passing through the grating towards the substrate of the grating coupler is reflected back by DBRs toward the grating. The DBR comprises a multilayer stack of various materials and may be formed on the substrate of the grating coupler. The grating coupler may include a gas-filled cavity, where the cavity is formed by a conventional etching process and is used to reflect light toward the grating. The grating coupler may also incorporate an anti-reflection coating to reduce reflective loss on the surface of the grating.Type: GrantFiled: November 16, 2005Date of Patent: February 27, 2007Inventors: Lawrence C. Gunn, III, Thierry J. Pinguet, Maxime Jean Rattier
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Patent number: 7184615Abstract: The invention relates to an optical device (50) for manipulating a light wave (?) using a diffractive grating structure (G). According to the basic idea behind the invention a prior art type diffractive grating structure having a permanently shaped surface relief is substituted with an electrically deformable diffractive grating structure (G), where a preformed, basic surface relief of the grating is composed of dielectric and deformable viscoelastic material, which can be electrically and sequentially fine tuned in shape to adjust the diffraction properties of said grating individually for different wavelengths. The invention permits manufacture of virtual display devices with a significantly larger exit pupil diameter than prior art solutions without degrading the color uniformity of the display device.Type: GrantFiled: September 19, 2003Date of Patent: February 27, 2007Assignee: Nokia CorporationInventor: Tapani Levola
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Patent number: 7181107Abstract: The invention relates to an integrated optics coupling element that includes a substrate, an optical guide core, an optical cladding independent of the core and surrounding at least one portion of the core in a zone of the substrate called the zone of interaction. The cladding has at least in the zone of interaction a modulation of its structure so as to form a grating. The refractive index of the cladding is different from the refractive index of the substrate and lower than the refractive index of the core at least in the part of the cladding next to the core in the zone of interaction. Embodiments of the invention may be used to make gain flatteners for optical amplifiers or to make linear response filters whose wavelength is on a spectral band.Type: GrantFiled: December 15, 2003Date of Patent: February 20, 2007Assignee: Teem PhotonicsInventor: Christophe Martinez
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Patent number: 7174061Abstract: Extensometer with flexible test specimen and Bragg gratings applied in particular to the monitoring of concrete structures, is configured to measure deformations of a host material and comprises at least one test specimen which undergoes linear bending stresses, and at least one Bragg grating formed in an optic fibre and fixed to the test specimen. The extensometer configured such that any deformation of the host material is transmitted to the grating via the test specimen. The extensometer also comprises mechanical means which transform deformation of the material into bending of the test specimen, which deforms the grating.Type: GrantFiled: January 30, 2004Date of Patent: February 6, 2007Assignee: Commissariat a L'Energie AtomiqueInventors: Stéphane Rougeault, Pierre Ferdinand
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Patent number: 7146078Abstract: An FBG encoder as an optical waveguide device includes plural unit FBGs respectively including a periodic refractive index modulation structure in a longitudinal direction of an optical fiber and aligned in the longitudinal direction of the optical fiber; and a phase shift section formed between any two adjacent unit FBGs among the plural unit FBGs, thereby producing a predetermined phase difference between the periodic refractive index modulation structures of two adjacent unit FBGs, wherein the unit FBGs respectively have a structure wherein a period of the periodic refractive index modulation of the plural unit diffraction grating sections gradually increases or decreases in the longitudinal direction of the optical fiber or a structure wherein amplitude of the periodic refractive index modulation is varied relative to the longitudinal direction of the optical fiber so that an envelope of the periodic refractive index modulation is a predetermined window function.Type: GrantFiled: June 23, 2005Date of Patent: December 5, 2006Assignee: Oki Electric Industry Co., Ltd.Inventor: Kensuke Sasaki
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Patent number: 7127140Abstract: There is provided a fiber Bragg grating devise comprising an FBG mount that is constituted by sequentially stacking a temperature control plate, a base plate, and a mounting plate, and an SSFBG in which a plurality of FBG units of the same constitution and a plurality of phase modulation portions are alternately formed in the same optical fiber. The temperature control plate is constituted by a thermo module and a heat-insulating member. The base plate is fixed in contact with the upper face of the temperature control plate and the mounting plate is in contact with the upper face of the base plate in a state where the mounting plate is able to glide over the upper face of the base plate. The SSFBG is fixed to contact an FBG contact portion that is established on the upper face of the mounting plate.Type: GrantFiled: November 28, 2005Date of Patent: October 24, 2006Assignee: Oki Electric Industry Co., Ltd.Inventors: Shuko Kobayashi, Akihiko Nishiki
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Patent number: 7123792Abstract: The invention relates to the field of grating structures. The invention provides a longitudinal grating having an aperiodic structure, wherein the grating has a selected response characteristic and any repeated unit cell in the structure is significantly longer than a characteristic length associated with the selected response characteristic.Type: GrantFiled: March 3, 2000Date of Patent: October 17, 2006Assignee: RJ Mears, LLCInventors: Robert Joseph Mears, Michael Charles Parker
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Patent number: 7123793Abstract: An optical architecture is provided comprising at least one broadband light source, a mod/mux unit, and a plurality of premises stations in communication with the mod/mux unit via an optical distribution hub. The mod/mux unit is configured to permit selective modulation of demultiplexed components of a target wavelength band of an optical signal, multiplex the selectively modulated optical signal, and direct the target wavelength band and a bypass wavelength band of the multiplexed optical signal to the optical distribution hub. The optical distribution hub comprises an arrayed waveguide grating configured to demultiplex the multiplexed optical signal and distribute respective distinct wavelength portions of the target wavelength band and respective distinct wavelength portions of the bypass wavelength band to respective ones of the premises stations.Type: GrantFiled: September 7, 2004Date of Patent: October 17, 2006Assignee: Optimer Photonics, Inc.Inventor: Richard W. Ridgway
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Patent number: 7113690Abstract: An anti-counterfeit method and system by using a nano metal grating, wherein an object to be recognized is formed with the nano metal grating. During the recognition process, an incidental light is applied on the metal grating. In response to the incidental light, the metal grating has its specific optical incidence and reflection characteristics. The object is then identified whether it is genuine or fake by observing the refraction light passing through and reflection light reflected from the metal grating. Further, the incident light beam can be polarized to generate polarized light beams and then irradiated on the metal grating, whereafter the recognition of the object is performed by observing the reflection and refraction lights of the irradiated polarized light beam. The recognition further can be accomplished by rotating the metal grating, thus the intensity of the refraction and reflection lights will accordingly be changed, thereby identifying the object.Type: GrantFiled: May 4, 2004Date of Patent: September 26, 2006Assignee: Industrial Technology Research InstituteInventors: Pong Lai, Ying-Tsung Lu, Ching-Chin Wu
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Patent number: 7110622Abstract: A set of three gratings may be operated in a vernier loop fashion to select a particular wavelength from a wavelength division multiplexed system. As a result, an optical add/drop multiplexer may be provided that can be tuned to select a desired wavelength. In one embodiment, the tuning may be done thermo-optically.Type: GrantFiled: June 13, 2005Date of Patent: September 19, 2006Assignee: Intel CorporationInventors: David A. G. Deacon, Steven J. Madden, Jorg Hubner
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Patent number: 7095911Abstract: A chiral in-fiber polarizer implemented in a chiral fiber structure having a core and a cladding surrounding the core, is provided. The chiral polarizer includes an entry end for receiving incident light and an exit end for outputting polarized light, as well as a pitch variation along its length between the entry and exit ends in accordance with a predetermined desirable pitch profile, wherein in one embodiment of the inventive polarizer, the inverse value of the chiral structure's pitch at the exit end is less than at the entry end, and preferably substantially equal to zero. The pitch profile may be advantageously selected to correspond to one or more predetermined pitch configurations, may be determined in accordance with one or more mathematical functions, or may be random.Type: GrantFiled: October 25, 2004Date of Patent: August 22, 2006Assignee: Chiral Photonics, Inc.Inventors: Victor Il'ich Kopp, Victor Tchourikov
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Patent number: 7095925Abstract: An optical phased array transmitter/receiver includes a plurality of waveguides each including an optical fiber and a light source coupled to the fibers in the waveguides. At least one grating is coupled to the fiber of each waveguide and at least one phase shifter coupled to the fiber of at least one waveguide. The phase shifter controls a phase profile of light passing through the fiber to control a profile of a laser beam reflected at the grating. The gratings reflect light passing through the fibers outside of the optical coder to form a laser beam shaped and directed by the grating and phase shifters. Further, a detector is coupled to the waveguides that is enabled to receive light reflected off the gratings. Other embodiments are described and claimed.Type: GrantFiled: November 3, 2004Date of Patent: August 22, 2006Assignee: Intel CorporationInventors: Anders Grunnet-Jepson, John Sweetser, Alan Johnson
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Patent number: 7088877Abstract: A tunable Bragg grating method and apparatus. In one aspect of the present invention, a method according to an embodiment of the present invention includes directing an optical beam into a first end of an optical path having the first end and a second end disposed in a semiconductor substrate, reflecting a first portion of the optical beam having a first center wavelength back out from the first end of the optical path and tuning the optical path to reflect a second portion of the optical beam having a second center wavelength back out from the first end of the optical path. In one embodiment, the Bragg grating is tuned with a heater used to adjust a temperature of the semiconductor substrate. In another embodiment, charge in charge modulated regions along the optical path is modulated to tune the Bragg grating.Type: GrantFiled: June 13, 2001Date of Patent: August 8, 2006Assignee: Intel CorporationInventors: Ansheng Liu, Mario J. Paniccia, Remus Nicolaescu
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Patent number: 7085439Abstract: The invention concerns a tunable filter comprising an optical fiber incorporating a Bragg grating on a portion of the fiber. Said fiber portion is coated with a material retained within a confined space and adapted to exert pressure on said Bragg grating to compress said portion of fiber radially and to stretch it longitudinally.Type: GrantFiled: September 26, 2002Date of Patent: August 1, 2006Assignee: Avanex CorporationInventors: Xavier Andrieu, Denis Cottevieille, Isabelle Riant
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Patent number: 7068866Abstract: A PIN electro-optical traveling wave modulator (10) including diffraction gratings (34, 36) positioned at opposing sides of an optical waveguide (20) that act to change the propagation pattern of the waveguide (20). The modulator (10) includes an N-type layer (14), a P-type layer (18) and an intrinsic layer (16) acting as the waveguide (20). A metal electrode (26) is in electrical contact with the N-type layer (14), and a metal electrode (30) is in electrical contact with the P-type layer (18). The electrodes (26, 30) define an RF transmission line. An optical wave (22) propagates along the waveguide (20) and interacts with the gratings (34, 36) which slow the optical wave (22) to match its speed to the speed of the RF wave in the transmission line. In one embodiment, the gratings (34, 36) are 2-D gratings formed by vertical holes (38) in the waveguide (20).Type: GrantFiled: November 3, 2003Date of Patent: June 27, 2006Assignee: Northrop Grumman CorporationInventors: Wenshen Wang, David C Scott, Elizabeth T Kunkee
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Patent number: 7054517Abstract: An apparatus comprises: a planar optical waveguide having sets of locking diffractive elements and means for routing optical signals; and corresponding lasers. Lasers launch signals into the planar waveguide that are successively incident on elements of the locking diffractive element sets, which route fractions of the signals back to the lasers as locking feedback signals. The routing means route between lasers and output port(s) portions of those fractions of signals transmitted by locking diffractive element sets. Locking diffractive element sets may be formed in channel waveguides formed in the planar waveguide, or in slab waveguide region(s) of the planar waveguide. Multiple routing means may comprise routing diffractive element sets formed in a slab waveguide region of the planar waveguide, or may comprise an arrayed waveguide grating formed in the planar waveguide. The apparatus may comprise a multiple-wavelength optical source.Type: GrantFiled: August 21, 2004Date of Patent: May 30, 2006Assignee: LightSmyth Technologies IncInventors: Thomas W. Mossberg, Dmitri Iazikov, Christoph M. Greiner
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Patent number: 7046866Abstract: A novel method based on sequential writing for fabricating of advanced fiber Bragg gratings is disclosed. As opposed to already presented sequential methods, this scheme uses a continuous wave UV laser source and allows for a very precise control and repetitively of the formation of the gratings. Furthermore, one can use high average irradiances without destroying the fiber, resulting in a dramatical shortening of fabricating times for complex gratings.Type: GrantFiled: March 6, 2002Date of Patent: May 16, 2006Assignee: Proximon Fiber Systems ABInventors: Bengt Sahlgren, Ingemar Petermann
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Patent number: 7043123Abstract: The inventors propose herein a novel band filter design for planar lightwave circuits. In one embodiment of the present invention, the band filter includes two waveguide grating routers interconnected by a third waveguide grating, wherein waveguides comprising the third waveguide grating have unequal path lengths. In addition, the waveguides in the third grating are partitioned into sets of adjacent waveguides wherein each set corresponds to a particular wavelength band for the filter. The individual sets of waveguides are spaced at their connection to the second waveguide grating router such that optical signals within predetermined, different optical wavelength bands are routed to different output ports of the band filter. Some of the advantages of this novel band filter include compactness, sharp passband corners, low spectral ripple, and a lack of chromatic dispersion.Type: GrantFiled: September 1, 2005Date of Patent: May 9, 2006Assignee: Lucent Technologies Inc.Inventor: Christopher Richard Doerr
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Patent number: 7039260Abstract: A method for generating an optical pulse train includes generating a source optical pulse train having a predetermined pulse period; optically combining a plurality of uniform pitch grating waveguides having a substantially identical Bragg wavelength and ?/4-phase-shift waveguides in an alternating sequence so as to form a multiple ?/4-phase-shift grating waveguide; inputting the source optical pulse train from one end of the multiple ?/4-phase-shifted grating waveguide; and extracting reflected optical pulses by the plurality of uniform pitch grating waveguides from the one end of the multiple ?/4-phase-shifted grating waveguide.Type: GrantFiled: February 5, 2003Date of Patent: May 2, 2006Assignee: Oki Electric Industry Co., Ltd.Inventors: Akihiko Nishiki, Masanori Hanawa, Hiroyuki Sasaki, Mikio Takahara
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Patent number: 7035490Abstract: When a voltage is applied to plural spot electrodes selected from the spot electrodes arranged in the matrix form and the light incident on the two-dimensional plane waveguide is reflected by at least two parallel lines, the refractive index of the optical waveguide is partly changed so that the wavelength of the light, the angle of the two lines to the incident light and the distance between the lines satisfy the Bragg reflection condition.Type: GrantFiled: April 19, 2004Date of Patent: April 25, 2006Assignee: Yokogawa Electric Corp.Inventors: Shun-ichi Miyazaki, Akira Miura, Shinji Kobayashi, Morio Wada, Tsuyoshi Yakihara, Sadaharu Oka, Shinji Iio, Tadashige Fujita, Chie Sato
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Patent number: 7027670Abstract: Cascaded optical deflectors are formed from light deflecting elements of an electro-optical material that are individually controlled according to applied voltage differences across the elements. The shape of the elements are determined by the shape of the electrodes on either side of the electro-optical material, while the refractive index is controlled by the sign and magnitude of a voltage difference applied across the elements. In particular, the invention includes light deflection elements that are tilted with respect to one another and that are individually controlled to provide for the deflection of light in an improved manner.Type: GrantFiled: October 17, 2003Date of Patent: April 11, 2006Assignee: Fujitsu LimitedInventor: Shigenori Aoki
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Patent number: 7018686Abstract: A new photopolymerizable material allows single-step, fast recording of volume holograms with properties that can be electrically controlled. Polymer-dispersed liquid crystals (PDLCs) in accordance with the invention preferably comprise a homogeneous mixture of a nematic liquid crystal and a multifunctional pentaacrylate monomer, in combination with photoinitiator, coinitiator and cross-linking agent. Optionally, a surfactant such as octanoic acid may also be added. The PDLC material is exposed to coherent light to produce an interference pattern inside the material. Photopolymerization of the new PDLC material produces a hologram of clearly separated liquid crystal domains and cured polymer domains. Volume transmission gratings made with the new PDLC material can be electrically switched between nearly 100% diffraction efficiency and nearly 0% diffraction efficiency. By increasing the frequency of the switching voltage, switching voltages in the range of 50 Vrms can be achieved.Type: GrantFiled: October 24, 2003Date of Patent: March 28, 2006Assignee: Science Applications International CorporationInventors: Richard L. Sutehrland, Lalquidi V. Natarajan, Vince P. Tondiglia, Timothy J. Bunning
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Patent number: 7013066Abstract: The invention discloses a tunable long period fiber grating structure and fabrication method, which produces an expected microbending deformation by adjusting the temperature and making use of the unmatched coefficients of thermal expansion between different materials, and thus creating a phenomenon of mode coupling effect occurred in traditional optical gratings in order to provide the structure and fabrication method for having an effect of tuning spectra by controlling the temperature. This invention not only can be applied to the optical communications and wavelength dependent multiplexed devices and equipments, but also can be applied to the temperature and deformation detection.Type: GrantFiled: January 19, 2005Date of Patent: March 14, 2006Assignee: National Taiwan UniversityInventors: Enboa Wu, Rou-Ching Yang, Kuo-Ching San
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Patent number: 7010197Abstract: The inventors propose herein a novel band filter design for planar lightwave circuits. In one embodiment of the present invention, the band filter includes two waveguide grating routers connected by sets of substantially equal path length waveguides within each set separated on one side, wherein the waveguides of each set are formed such that optical signals having overlapping frequency ranges are propagated through adjacent waveguides. In addition, the waveguides of each set are spaced at their connection to the second waveguide grating router such that optical signals with predetermined optical frequency ranges are routed to selected, respective output ports. Some of the advantages of this novel band filter include compactness, sharp passband corners, and a lack of chromatic dispersion.Type: GrantFiled: September 9, 2003Date of Patent: March 7, 2006Assignee: Lucent Technologies Inc.Inventor: Christopher Richard Doerr
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Patent number: 7009679Abstract: A chiral structure having an expanded adjustable reflection band to provide broadband tunability is provided. In the preferred embodiment, the chiral structure is implemented as a chiral fiber structure and comprises two or more sequential chiral fiber elements of different pitches, each having a tunable chiral defect generator. The pitches are selected such that the individual photonic band gaps of the elements are formed into one expanded reflection band such that at least one defect state can be formed and moved within the expanded reflection band by selectively activating and adjusting one or more of the tunable chiral defect generator. The tunable chiral defect generators may generate and control defect state(s) in the structure's spectral response by introducing chiral twists and/or spacing between the chiral elements, with the length of the spacings and angles of chiral twists being proportional to the position of the defect state(s) within the reflection band of the structure.Type: GrantFiled: March 14, 2003Date of Patent: March 7, 2006Assignee: Chiral Photonics, Inc.Inventors: Victor Il'ich Kopp, Azriel Zelig Genack
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Patent number: 7006733Abstract: A variable optical device for selectively controlling propagation of light within an optical waveguide. The optical device comprises: a relief modulation defining a grating disposed proximal the waveguide and having a respective grating index of refraction nG; a matrix surrounding at least the relief modulation, the matrix having an index of refraction nEO that is controllable, in response to a selected stimulus between a first value that is substantially equal to the grating index of refraction nG, and a second value that is different from nG; and at least one electrode for supplying the selected stimulus to the matrix-grating system.Type: GrantFiled: January 21, 2004Date of Patent: February 28, 2006Assignee: Photintech, Inc.Inventors: Tigran Galstian, Armen Zohrabyan, Dany Dumont, Amir Tork, Rouslan Birabassov
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Patent number: 7003197Abstract: An optical fiber (1?) having at least one Bragg grating (11), the fiber comprising a core (2) surrounded successively by cladding (3) and by a coating (4), the grating being obtained by being written directly in the core and/or the cladding of the fiber through the coating which is made of a material that is substantially transparent to ultraviolet type radiation used for writing the grating, and wherein the material of the coating contains a first polymer network interpenetrated by a second polymer.Type: GrantFiled: December 31, 2003Date of Patent: February 21, 2006Assignee: AlcatelInventors: Sébastien Andre, Samuel Merlet
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Patent number: 7003181Abstract: This invention relates to a number of components, devices and networks involving integrated optics and/or half coupler technology, all of which involve the use of electronically switchable Bragg grating devices and device geometries realized using holographic polymer/dispersed liquid crystal materials. Most of the components and devices are particularly adapted for use in wavelength division multiplexing (WDM) systems and in particular for use in switchable add/drop filtering (SADF) and wavelength selective crossconnect. Attenuators, outcouplers and a variety of other devices are also provided.Type: GrantFiled: July 6, 2004Date of Patent: February 21, 2006Inventors: Lawrence H. Domash, Brent Little
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Patent number: 7003198Abstract: The inventors propose herein a novel band filter design for planar lightwave circuits. In one embodiment of the present invention, the band filter includes two waveguide grating routers interconnected by a third waveguide grating, wherein waveguides comprising the third waveguide grating have unequal path lengths. In addition, the waveguides in the third grating are partitioned into sets of adjacent waveguides wherein each set corresponds to a particular wavelength band for the filter. The individual sets of waveguides are spaced at their connection to the second waveguide grating router such that optical signals within predetermined, different optical wavelength bands are routed to different output ports of the band filter. Some of the advantages of this novel band filter include compactness, sharp passband corners, low spectral ripple, and a lack of chromatic dispersion.Type: GrantFiled: February 20, 2004Date of Patent: February 21, 2006Assignee: Lucent Technologies Inc.Inventor: Christopher Richard Doerr
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Patent number: 6993223Abstract: An optical apparatus comprises an optical element having at least two sets of diffractive elements, each diffractive element comprising at least one diffracting region thereof. At least one diffractive element set collectively routes, between a corresponding input optical port and a corresponding output optical port, at least a portion of a corresponding optical signal incident on the diffracting regions that is diffracted thereby as it propagates from the corresponding input optical port. The optical element includes at least one spatial region thereof wherein multiple diffracting regions of a first diffractive element set are present and diffracting regions of a second diffractive element set are absent. The diffractive elements of each set, the diffracting regions thereof, and each said spatial region are arranged so as to impart desired spatial characteristics, desired spectral characteristics, or desired temporal characteristics onto the corresponding routed portion of the optical signal.Type: GrantFiled: November 26, 2004Date of Patent: January 31, 2006Assignee: LightSmyth Technologies, Inc.Inventors: Christoph M. Greiner, Dmitri Iazikov, Thomas W. Mossberg
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Patent number: 6990276Abstract: A planar optical waveguide has sets of diffractive elements, each routing between input and output optical ports diffracted portions of an input optical signal. The diffractive elements are arranged so that the impulse response function of the diffractive element set comprises a reference temporal waveform or its time-reverse. A planar optical waveguide has N×M sets of diffractive elements, each routing between corresponding input and output optical ports corresponding diffracted portions of an input optical signal. The N×M diffractive element sets, N×M input optical ports, and N 1×M optical switches enable routing of an input optical signal any of the N input optical sources to any of the M output optical ports based on the operational state of the corresponding 1×M optical switch.Type: GrantFiled: May 29, 2004Date of Patent: January 24, 2006Assignee: LightSmyth Technologies, Inc.Inventors: Lawrence D. Brice, Christoph M. Greiner, Thomas W. Mossberg, Dmitri Iazikov
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Patent number: 6987911Abstract: A spectral filter comprises a planar optical waveguide having at least one set of diffractive elements. The waveguide confines in one transverse dimension an optical signal propagating in two other dimensions therein. The waveguide supports multiple transverse modes. Each diffractive element set routes, between input and output ports, a diffracted portion of the optical signal propagating in the planar waveguide and diffracted by the diffractive elements. The diffracted portion of the optical signal reaches the output port as a superposition of multiple transverse modes. A multimode optical source may launch the optical signal into the planar waveguide, through the corresponding input optical port, as a superposition of multiple transverse modes. A multimode output waveguide may receive, through the output port, the diffracted portion of the optical signal. Multiple diffractive element sets may route corresponding diffracted portions of optical signal between one or more corresponding input and output ports.Type: GrantFiled: May 11, 2004Date of Patent: January 17, 2006Assignee: LightSmyth Technologies, Inc.Inventors: Thomas W. Mossberg, Christoph M. Greiner, Dmitri Iazikov
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Patent number: 6985664Abstract: A grating-coupled waveguide (GCW) and a method are described herein that can be used to detect the presence of a biological substance (e.g., cell, drug, chemical compound) in a sensing region of the GCW. The GCW includes a substrate, a diffraction grating and a waveguide film that has a higher index of refraction than the substrate which has an index of refraction?1.5. The relatively low-index substrate effectively increases the sensitivity of the GCW by causing the waveguide mode to shift towards a biological substance located in a sensing region above the waveguide film, thereby increasing the field strength of the mode's evanescent tail in this region. In one embodiment, an array of the GCWs are incorporated within the wells of a microplate.Type: GrantFiled: August 1, 2003Date of Patent: January 10, 2006Assignee: Corning IncorporatedInventors: Stephen J. Caracci, Mircea Despa, Eric J. Mozdy, Mark D. Salik