Patents Assigned to Beam Engineering for Advanced Measurements Co.
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Patent number: 11543704Abstract: Methods, materials, systems, and devices for stabilizing photoalignment patterns in liquid crystal diffractive waveplates (LCDWs) against radiation, mechanical, and electrical influences by creating a polymer network within the bulk of LCDW such as the polymer network does not affect the LC orientation pattern in the bulk of the DW and does not result in residual retardation and light scattering while being able to fast switching and relaxation with no haze at application of electric fields.Type: GrantFiled: November 2, 2020Date of Patent: January 3, 2023Assignee: Beam Engineering for Advanced Measurements Co.Inventors: Nelson V. Tabirian, Mark J. Moran, Olena Uskova, Justin Sigley
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Patent number: 11366253Abstract: Methods, systems and devices for diffractive waveplate lens and mirror systems allowing electronically pointing and focusing light at different focal planes. The system can be incorporated into a variety of optical schemes for providing electrical control of transmission. In another embodiment, the system comprises diffractive waveplates of different functionality to provide a system for controlling not only focusing but other propagation properties of light including direction, phase profile, and intensity distribution. The diffractive waveplate lens and mirror systems are applicable to optical communication systems.Type: GrantFiled: January 17, 2020Date of Patent: June 21, 2022Assignees: Beam Engineering for Advanced Measurements Co., U.S. Government as Represented by the Secretary of the ArmyInventors: Nelson V. Tabirian, Svetlana Serak, Olena Uskova, David E. Roberts, Anna Tabirian, Diane Steeves, Brian Kimball
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Patent number: 11366254Abstract: Optical beam steering and focusing systems, devices, and methods that utilize diffractive waveplates are improved to produce high efficiency at large beam deflection angles, particularly around normal incidence, by diffractive waveplate architectures comprising a special combination of liquid crystal polymer diffractive waveplate both layers with internal twisted structure and at a layer with uniform structure.Type: GrantFiled: January 17, 2020Date of Patent: June 21, 2022Assignee: BEAM ENGINEERING FOR ADVANCED MEASUREMENTS CO.Inventors: Nelson Tabirian, David E. Roberts, Sarik Nersisyan, Olena Uskova, Anna Tabirian
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Patent number: 11294240Abstract: Diffractive optical structures, lenses, waveplates, devices, systems and methods, which have the same effect on light regardless of temperature within an operating temperature range. Temperature-compensated switchable diffractive waveplate systems, in which the diffraction efficiency can be maximized for the operating wavelength and temperature by means of adjustment of the electric potential across the liquid crystal or other anisotropic material in the diffracting state of the diffractive state, based on prior measurements of diffraction efficiency as a function of wavelength and temperature. The switchable diffractive waveplates can be a switchable diffractive waveplate diffuser, a switchable cycloidal diffractive waveplate, and a switchable diffractive waveplate lens. An electronic controller can apply an electric potential to the switchable diffractive waveplate.Type: GrantFiled: July 14, 2020Date of Patent: April 5, 2022Assignee: Beam Engineering for Advanced Measurements Co.Inventors: Nelson V. Tabirian, Justin L. Sigley, Zhi J. Liao, David E. Roberts
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Patent number: 11175441Abstract: Diffractive optical structures, lens, waveplates, systems and methods of combinations of CDWs (cycloidal diffractive waveplates) and PVGs (polarization volume gratings) that result in high efficiency polarization-insensitive diffraction. Although our modelling and experiments were performed for structures with optical axis orientation periodic along one of the Cartesian coordinates parallel to the plane of the structure, the results are applicable to more complex structures such as diffractive waveplate lenses. The focusing performance of such structures can be predicted by considering the structure to be locally periodic along one axis.Type: GrantFiled: March 5, 2019Date of Patent: November 16, 2021Assignee: Beam Engineering for Advanced Measurements Co.Inventors: Nelson V. Tabirian, David E. Roberts
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Patent number: 11119257Abstract: Methods of fabricating optical lenses and mirrors, systems and composite structures based on diffractive waveplates, and fields of application of said lenses and mirrors that include imaging systems, astronomy, displays, polarizers, optical communication and other areas of laser and photonics technology. Diffractive lenses and mirrors of shorter focal length and larger size, with more closely spaced grating lines, and with more exacting tolerances on the optical characteristics, can be fabricated than could be fabricated by previous methods.Type: GrantFiled: December 7, 2018Date of Patent: September 14, 2021Assignees: Beam Engineering for Advanced Measurements Co, U.S. Government as Represented by the Secretary of the ArmyInventors: Nelson V. Tabirian, Svetlana Serak, David E. Roberts, Diane Steeves, Brian Kimball
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Patent number: 10802302Abstract: The invention provides for lenses fabricated as planar thin film coatings with continuous structure. The lensing action is due to optical axis orientation modulation in the plane of the lens. The lenses of the current invention are fabricated using photoalignment of a liquid crystal polymer wherein the polarization pattern of radiation used for photoalignment is obtained by propagating the light through an optical system comprising a shape-variant nonlinear spatial light polarization modulators.Type: GrantFiled: October 24, 2018Date of Patent: October 13, 2020Assignees: Beam Engineering for Advanced Measurements Co., The United States of America as Represented by the Secretary of the ArmyInventors: Nelson Tabirian, Svetlana Serak, Diane Steeves, Brian Kimball
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Patent number: 10666916Abstract: Modulated circular polarization viewing systems and methods that cause temporal modulation of color, brightness, or both, of objects treated with materials having differential polarization reflectance.Type: GrantFiled: February 27, 2019Date of Patent: May 26, 2020Assignee: Beam Engineering for Advanced Measurements Co.Inventors: Nelson V. Tabirian, David E. Roberts
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Patent number: 10557977Abstract: Methods, systems and devices for diffractive waveplate lens and mirror systems allowing electronically focusing light at different focal planes. The system can be incorporated into a variety of optical schemes for providing electrical control of transmission. In another embodiment, the system comprises diffractive waveplates of different functionality to provide a system for controlling not only focusing but other propagation properties of light including direction, phase profile, and intensity distribution.Type: GrantFiled: December 14, 2018Date of Patent: February 11, 2020Assignees: Beam Engineering for Advanced Measurements Co., U.S. Government as represented by the Secretary of the ArmyInventors: Nelson V. Tabirian, Svetlana Serak, Olena Uskova, David E. Roberts, Anna Tabirian, Diane Steeves, Brian Kimball
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Broadband imaging with diffractive waveplate coated mirrors and diffractive waveplate objective lens
Patent number: 10436957Abstract: Diffractive waveplate lenses, mirrors, devices, systems and methods for performing imaging over a broad spectral band in imaging systems, such as but not limited to astronomical imaging, surveillance imaging, and in communication systems, such as laser communication systems. Corrector mirrors are used with a flat diffractive wave diffractive waveplate lens so that chromatic aberrations of the diffractive waveplate lens are reduced with the imaging system.Type: GrantFiled: October 27, 2016Date of Patent: October 8, 2019Assignee: Beam Engineering for Advanced Measurements Co.Inventors: Nelson V. Tabirian, Zhi J. Liao, David E. Roberts -
Patent number: 10423045Abstract: Optical beam shaping systems and methods can include an illumination source and a diffractive waveplate diffuser. The diffractive waveplate diffuser includes a layer of patterned optically anisotropic material. In one embodiment, the layer of patterned optically anisotropic material is fabricated in the form of patterned, optically anisotropic liquid crystal polymer. In another embodiment, the layer of patterned optically anisotropic material is a layer of liquid crystal, the diffractive waveplate diffuser also includes two alignment layers and two transparent conductive coatings, and the properties of the liquid crystal layer are controlled by the application of an electric potential between the two transparent conductive coatings. A method is provided for designing the alignment pattern of the layer of optically anisotropic material.Type: GrantFiled: November 14, 2016Date of Patent: September 24, 2019Assignee: Beam Engineering for Advanced Measurements Co.Inventors: David E. Roberts, Nelson V. Tabirian
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Patent number: 10330947Abstract: Mirrors, lenses, devices, apparatus, systems and methods for correcting temporal dispersion of laser pulses or other pulses of electromagnetic radiation in diffractive telescopes used in applications, such as but not limited to optical telescopes, transmitters, receivers, and transceivers for laser communication and imaging. Diffractive lenses and mirrors allow for producing large area telescopes and reducing or eliminating temporal dispersion of laser pulses and other pulses of electromagnetic radiation recorded by such telescopes. This can be achieved by utilizing high efficiency thin film diffractive optical films, particularly, diffractive waveplates, and having a secondary diffractive mirror of a shape selected to assure that the propagation time from the flat primary collecting lens or mirror is independent of the position on the flat primary collecting lens or mirror at which the radiation impinges.Type: GrantFiled: June 22, 2016Date of Patent: June 25, 2019Assignee: Beam Engineering for Advanced Measurements, Co.Inventors: Nelson V. Tabirian, David E. Roberts
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Patent number: 10274650Abstract: Optical lenses, systems, devices and methods for fabricating and manufacturing diffractive waveplate lenses that allow setting the focal length sign of an optical system by positioning the lens with its front or back surface with respect to an incoming circular polarized light beam. Applications for the lenses include optical systems comprising fibers, diode lasers, waveplates, polarizers, and variable lenses, particularly, in the form of a set of polymer films with re-attachable adhesive layers. And providing a flat mirror with concave or convex function due to diffractive waveplate lens coating.Type: GrantFiled: April 16, 2015Date of Patent: April 30, 2019Assignee: Beam Engineering for Advanced Measurements Co.Inventors: Nelson V. Tabirian, Svetlana V. Serak, David E. Roberts, Anna Tabirian, Diane M. Steeves, Brian R. Kimball
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Patent number: 10274805Abstract: Energized lens systems and methods of fabricating an energized lens system which can be switched from one polarization-independent focal length to another polarization-independent focal length. The energized lens system can include a 90 degree twisted nematic liquid crystal layer with curved boundaries, and with transparent conductive electrodes which allow the application of an electric field to switch the focal length of the twisted nematic liquid crystal layer. The focal length of the energized lens system can be independent of the polarization of light in both of its two states, and only one liquid crystal layer of the energized lens system needs to be switched in order for the focal length of the energized lens system to be switched.Type: GrantFiled: June 13, 2017Date of Patent: April 30, 2019Assignee: Beam Engineering for Advanced Measurements Co.Inventors: Nelson V. Tabirian, David E. Roberts
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Patent number: 10197715Abstract: Methods of fabricating optical lenses and mirrors, systems and composite structures based on diffractive waveplates, and fields of application of said lenses and mirrors that include imaging systems, astronomy, displays, polarizers, optical communication and other areas of laser and photonics technology. Diffractive lenses and mirrors of shorter focal length and larger size, with more closely spaced grating lines, and with more exacting tolerances on the optical characteristics, can be fabricated than could be fabricated by previous methods.Type: GrantFiled: June 30, 2016Date of Patent: February 5, 2019Assignees: Beam Engineering for Advanced Measurements Co., The United States of America as Represented by the Secretary of the ArmyInventors: Nelson V. Tabirian, Svetlana V. Serak, Diane M. Steeves, Brian R. Kimball, David E. Roberts
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Patent number: 10191191Abstract: Methods, systems and devices for diffractive waveplate lens and mirror systems allowing electronically focusing light at different focal planes. The system can be incorporated into a variety of optical schemes for providing electrical control of transmission. In another embodiment, the system comprises diffractive waveplate of different functionality to provide a system for controlling not only focusing but other propagation properties of light including direction, phase profile, and intensity distribution.Type: GrantFiled: April 16, 2015Date of Patent: January 29, 2019Assignees: Beam Engineering for Advanced Measurements Co., The United States of America as Represented by the Secretary of the ArmyInventors: Nelson V. Tabirian, Svetlana V. Serak, Olena Uskova, David E. Roberts, Anna Tabirian, Diane M. Steeves, Brian R. Kimball
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Patent number: 10191296Abstract: Devices, apparatus, systems and methods for making and using laser pointers and laser illuminators with reduced risk of optical sensor damage such as eye injuries due to laser radiation from the pointer or illuminator, while scattered beams from the laser pointer or laser illuminator are visible to the optical sensor.Type: GrantFiled: June 30, 2016Date of Patent: January 29, 2019Assignee: Beam Engineering for Advanced Measurements Co.Inventors: Nelson V. Tabirian, David E. Roberts
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Patent number: 10185182Abstract: Cycloidal boundary conditions for aligning liquid crystalline materials are obtained by mechanical rubbing of a polymer coating. The rubbing is performed by a rubbing head rotating around an axis perpendicular to the rubbing plane while the alignment polymer film is being translated across the rubbing film such as only a linear portion of the alignment film touches the rubbing film at any given time.Type: GrantFiled: March 2, 2014Date of Patent: January 22, 2019Assignee: Beam Engineering for Advanced Measurements Co.Inventor: Nelson Tabirian
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Patent number: 10120112Abstract: Diffractive waveplate lenses, devices, systems and methods of fabricating and manufacturing lenses for correcting spherical and chromatic aberrations of diffractive waveplate lenses and refractive lenses, by using nonlinear patterning of anisotropy axis of birefringent layers comprising the diffractive waveplate lenses, and their combinations and for obtaining polarization-independent functionality of diffractive waveplate lenses.Type: GrantFiled: April 16, 2015Date of Patent: November 6, 2018Assignees: Beam Engineering for Advanced Measurements Co., The United States of America as Represented by the Secretary of the ArmyInventors: Nelson V. Tabirian, David E. Roberts, Diane M. Steeves, Brian R. Kimball
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Patent number: 10114239Abstract: The invention provides for lenses fabricated as planar thin film coatings with continuous structure. The lensing action is due to optical axis orientation modulation in the plane of the lens. The lenses of the current invention are fabricated using photoalignment of a liquid crystal polymer wherein the polarization pattern of radiation used for photoalignment is obtained by propagating the light through an optical system comprising a shape-variant nonlinear spatial light polarization modulators.Type: GrantFiled: March 14, 2014Date of Patent: October 30, 2018Assignees: Beam Engineering for Advanced Measurements Co., The United States of America as Represented by the Secretary of the ArmyInventors: Nelson Tabirian, Svetlana Serak, Diane Steeves, Brian Kimball