Patents Assigned to Vescent Photonics, Inc.
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Patent number: 9366938Abstract: A substantially planar waveguide for dynamically controlling the out-of-plane angle at which a light beam exits the waveguide. Generally, liquid crystal materials may be disposed within a waveguide in a cladding proximate or adjacent to a core layer of the waveguide. In one example, the waveguide may contain one or more taper regions such that the light beam exits the waveguide and propagates out-of-the-plane of the waveguide into an out-coupling medium at a propagation angle. In one example, the waveguide may contain one or more electrodes onto which one or more voltages may be applied. The magnitude of the propagation angle may be electronically controlled by altered by controlling or altering the magnitude of the one or more applied voltages.Type: GrantFiled: March 20, 2014Date of Patent: June 14, 2016Assignee: Vescent Photonics, Inc.Inventors: Michael H. Anderson, Scott R. Davis, Scott D. Rommel
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Patent number: 8995038Abstract: An optical time delay control device for controllably altering the transit time of an optical beam between two points. In one example, the device may include an optically transparent solid medium for receiving the optical beam, wherein at least a portion of the medium is generally a parallel piped shape characterized by a height, length and width, wherein the length is larger than the height; two mirrors affixed to two opposing parallel surfaces of the optically transparent solid medium, so that during operation the optical beam reflects between the two mirrors as the optical beam travels through the optically transparent medium; and an angle actuator for controllably altering the angle at which the optical beam enters into the optically transparent medium, thereby controllably altering the time that the optical beam travels through the device. This in effect permits control of the amount of delay of the transmission of light, and delays of 20 nanoseconds have been achieved.Type: GrantFiled: July 6, 2011Date of Patent: March 31, 2015Assignee: Vescent Photonics, Inc.Inventors: Michael H. Anderson, Scott R. Davis, Scott D. Rommel, George Farca, Seth Trevor Johnson
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Patent number: 8989523Abstract: Waveguide and associated methods for controlling an optical phase delay (OPD) of TE polarized light traveling along a propagation direction through a waveguide are disclosed. In one example, the method includes providing the waveguide with a core, at least one cladding; initially aligning at least a portion of the liquid crystal molecules in an initial orientation with their longitudinal axes oriented at an out-of-plane tilt angle, and their longitudinal axis oriented at an in-plane angle; providing the waveguide with a pair of electrodes for receiving a control signal; and applying the control signal to the pair of electrodes to rotate the liquid crystal molecules from the initial orientation, thereby controlling the optical phase delay of the TE polarized light traveling through the waveguide.Type: GrantFiled: January 30, 2012Date of Patent: March 24, 2015Assignee: Vescent Photonics, Inc.Inventors: Michael H. Anderson, Scott D. Rommel, Scott R. Davis
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Patent number: 8860897Abstract: A waveguide and method for controllably altering an optical phase delay (OPD) of light traveling along a propagation direction through the waveguide. Many embodiments are disclosed, and in one example, the waveguide may include a core for guiding the light through the waveguide; at least one cladding adjacent the core, wherein the at least one cladding has liquid crystal molecules disposed therein; at least one alignment layer positioned between the at least one cladding and the core, the alignment layer initially aligning at least a portion of the liquid crystal molecules in an initial orientation; and a pair of electrodes for receiving a voltage.Type: GrantFiled: March 30, 2006Date of Patent: October 14, 2014Assignee: Vescent Photonics, Inc.Inventors: Michael H. Anderson, Scott D. Rommel, Scott R. Davis
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Patent number: 8463080Abstract: A waveguide and method for controllably altering an optical phase delay (OPD) of light traveling along a propagation direction through the waveguide. Many embodiments are disclosed, and in one example, a waveguide may include a core for guiding the light through the waveguide; at least one cladding adjacent the core, wherein the at least one cladding has liquid crystal molecules disposed therein; at least one electrode for receiving a first voltage for controllably altering the optical phase delay of the TE polarized light traveling through the waveguide; and at least one electrode for receiving a second voltage for controllably altering the optical phase delay of the TM polarized light traveling through the waveguide.Type: GrantFiled: June 30, 2006Date of Patent: June 11, 2013Assignee: Vescent Photonics, Inc.Inventors: Michael H. Anderson, Scott D. Rommel, Scott R. Davis
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Patent number: 8380025Abstract: Liquid crystal waveguides for dynamically controlling the refraction of light. Generally, liquid crystal materials may be disposed within a waveguide in a cladding proximate or adjacent to a core layer of the waveguide. In one example, portions of the liquid crystal material can be induced to form refractive or lens shapes in the cladding that interact with a portion (e.g. evanescent) of light in the waveguide so as to permit electronic control of the refraction/bending, focusing, or defocusing of light as it travels through the waveguide. In one example, a waveguide may be formed using one or more patterned or shaped electrodes that induce formation of such refractive or lens shapes of liquid crystal material, or alternatively, an alignment layer may have one or more regions that define such refractive or lens shapes to induce formation of refractive or lens shapes of the liquid crystal material.Type: GrantFiled: July 6, 2007Date of Patent: February 19, 2013Assignee: Vescent Photonics, Inc.Inventors: Michael H. Anderson, Scott D. Rommel, Scott R. Davis
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Patent number: 8311372Abstract: Liquid crystal waveguides for dynamically controlling the refraction of light. Generally, liquid crystal materials may be disposed within a waveguide in a cladding proximate or adjacent to a core layer of the waveguide. In one example, portions of the liquid crystal material can be induced to form refractive or lens shapes in the cladding that interact with a portion (e.g. evanescent) of light in the waveguide so as to permit electronic control of the refraction/bending, focusing, or defocusing of light as it travels through the waveguide. In one example, a waveguide may be formed using one or more patterned or shaped electrodes that induce formation of such refractive or lens shapes of liquid crystal material, or alternatively, an alignment layer may have one or more regions that define such refractive or lens shapes to induce formation of refractive or lens shapes of the liquid crystal material.Type: GrantFiled: July 6, 2007Date of Patent: November 13, 2012Assignee: Vescent Photonics, Inc.Inventors: Michael H. Anderson, Scott D. Rommel, Scott R. Davis
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Patent number: 7742664Abstract: Liquid crystal waveguides for dynamically controlling the refraction of light. Generally, liquid crystal materials may be disposed within a waveguide in a cladding proximate or adjacent to a core layer of the waveguide. In one example, portions of the liquid crystal material can be induced to form refractive or lens shapes in the cladding that interact with a portion (e.g. evanescent) of light in the waveguide so as to permit electronic control of the refraction/bending, focusing, or defocusing of light as it travels through the waveguide. In one example, a waveguide may be formed using one or more patterned or shaped electrodes that induce formation of such refractive or lens shapes of liquid crystal material, or alternatively, an alignment layer may have one or more regions that define such refractive or lens shapes to induce formation of refractive or lens shapes of the liquid crystal material.Type: GrantFiled: October 12, 2004Date of Patent: June 22, 2010Assignee: Vescent Photonics, Inc.Inventors: Michael H. Anderson, Scott D. Rommel, Scott R. Davis
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Patent number: 7720116Abstract: A tunable laser for providing a laser beam with a selectable wavelength. In one example, the tunable laser includes a gain medium for generating the laser beam; a waveguide for processing the laser beam, the waveguide having liquid crystal material or other electro-optic material disposed therein; an optical path length control element disposed within said waveguide for controlling an effective optical path length of the laser cavity; and a wavelength selective element for controlling the wavelength of the laser beam. The tunable laser may be designed without any moving mechanical parts if desired.Type: GrantFiled: January 21, 2005Date of Patent: May 18, 2010Assignee: Vescent Photonics, Inc.Inventors: Michael H. Anderson, Scott R. Davis, Scott D. Rommel
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Patent number: 7570320Abstract: A waveguide having an adjustable index of refraction (or an adjustable optical path length, or for providing an adjustable optical phase delay) based in part on thermal effects in the waveguide. In one example, the waveguide may include a core for guiding a light beam through the waveguide; at least one cladding; liquid crystal material disposed within the waveguide; and at least one temperature control element, such as resistive heater, for receiving at least one control signal to control a temperature of at least a portion of the liquid crystal material; wherein the index of refraction (or the optical path length, or the optical phase delay of the light beam) of the waveguide is altered by an amount that is controlled by the control signal.Type: GrantFiled: August 31, 2006Date of Patent: August 4, 2009Assignee: Vescent Photonics, Inc.Inventors: Michael H. Anderson, Scott D. Rommel, Scott R. Davis