Patents by Inventor Ibrahim Abdulhalim

Ibrahim Abdulhalim 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).

  • Patent number: 12140846
    Abstract: A fast spectral modulator for modulating intensity, phase, and spectrum of light beam, is described in the present invention. The spectral modulator comprises at least one liquid crystal composite and a photonic structure. Said at least one liquid crystal composite is made of a liquid crystal and porous microparticles infiltrated within said liquid crystal, wherein: (i) said porous microparticles have an average refractive index approximately equals to one of the liquid crystal principal refractive indices; and (ii) concentration of said microparticles in said composite is less than 0.1% for avoiding significant light scattering.
    Type: Grant
    Filed: July 3, 2023
    Date of Patent: November 12, 2024
    Inventor: Ibrahim Abdulhalim
  • Patent number: 11953787
    Abstract: The present invention relates to an optical imaging device capable of responding to a writing long-wave radiation (w) emitted by any object or scene.
    Type: Grant
    Filed: October 6, 2019
    Date of Patent: April 9, 2024
    Inventors: Ibrahim Abdulhalim, Hisham Abdulhalim
  • Publication number: 20230359098
    Abstract: A fast spectral modulator for modulating intensity, phase, and spectrum of light beam, is described in the present invention. The spectral modulator comprises at least one liquid crystal composite and a photonic structure. Said at least one liquid crystal composite is made of a liquid crystal and porous microparticles infiltrated within said liquid crystal, wherein: (i) said porous microparticles have an average refractive index approximately equals to one of the liquid crystal principal refractive indices; and (ii) concentration of said microparticles in said composite is less than 0.1% for avoiding significant light scattering.
    Type: Application
    Filed: July 3, 2023
    Publication date: November 9, 2023
    Inventor: Ibrahim ABDULHALIM
  • Patent number: 11774824
    Abstract: The present invention describes a liquid crystal composite tuneable device for fast polarisation-independent modulation of an incident light beam comprising: (a) two supporting and functional panels, at least one of them coated with a transparent conductive electrode layer and with optionally at least one additional layer selected from an alignment layer, antireflective coating layer, thermochromic or electrochromic layer, photoconductive or photosensitive layer, and (b) a composite structure sandwiched between said two panels and made of a liquid crystal and porous microparticles infiltrated with said liquid crystal. The porous microparticles have an average refractive index approximately equals to one of the liquid crystal principal refractive indices, matching that of the liquid crystal at one orientational state (for example, parallel n?), and exhibiting large mismatch at another orientational state (for example, perpendicular n?).
    Type: Grant
    Filed: November 30, 2022
    Date of Patent: October 3, 2023
    Inventor: Ibrahim Abdulhalim
  • Publication number: 20230093121
    Abstract: The present invention describes a liquid crystal composite tuneable device for fast polarisation-independent modulation of an incident light beam comprising: (a) two supporting and functional panels, at least one of them coated with a transparent conductive electrode layer and with optionally at least one additional layer selected from an alignment layer, antireflective coating layer, thermochromic or electrochromic layer, photoconductive or photosensitive layer, and (b) a composite structure sandwiched between said two panels and made of a liquid crystal and porous microparticles infiltrated with said liquid crystal. The porous microparticles have an average refractive index approximately equals to one of the liquid crystal principal refractive indices, matching that of the liquid crystal at one orientational state (for example, parallel n?), and exhibiting large mismatch at another orientational state (for example, perpendicular n?).
    Type: Application
    Filed: November 30, 2022
    Publication date: March 23, 2023
    Inventor: Ibrahim ABDULHALIM
  • Patent number: 11567381
    Abstract: The present invention describes a liquid crystal composite tunable device for fast polarisation-independent modulation of an incident light beam comprising: (a) two supporting and functional panels, at least one of them coated with a transparent conductive electrode layer and with optionally at least one additional layer selected from an alignment layer, antireflective coating layer, thermochromic or electrochromic layer, photoconductive or photosensitive layer, and (b) a composite structure sandwiched between said two panels and made of a liquid crystal and porous microparticles infiltrated with said liquid crystal. The porous microparticles have an average refractive index approximately equals to one of the liquid crystal principal refractive indices, matching that of the liquid crystal at one orientational state (for example, parallel n?), and exhibiting large mismatch at another orientational state (for example, perpendicular n?).
    Type: Grant
    Filed: April 19, 2021
    Date of Patent: January 31, 2023
    Inventor: Ibrahim Abdulhalim
  • Publication number: 20210349354
    Abstract: The present invention relates to an optical imaging device capable of responding to a writing long-wave radiation (w) emitted by any object or scene.
    Type: Application
    Filed: October 6, 2019
    Publication date: November 11, 2021
    Inventors: Ibrahim ABDULHALIM, Hisham ABDULHALIM
  • Patent number: 11112671
    Abstract: The present invention describes a liquid crystal composite tunable device for fast polarisation-independent modulation of an incident light beam comprising: (a) two supporting and functional panels, at least one of them coated with a transparent conductive electrode layer and with optionally at least one additional layer selected from an alignment layer, antireflective coating layer, thermochromic or electrochromic layer, photoconductive or photosensitive layer, and (b) a composite structure sandwiched between said two panels and made of a liquid crystal and porous microparticles infiltrated with said liquid crystal. The porous microparticles have an average refractive index approximately equals to one of the liquid crystal principal refractive indices, matching that of the liquid crystal at one orientational state (for example, parallel n?), and exhibiting large mismatch at another orientational state (for example, perpendicular n?).
    Type: Grant
    Filed: July 11, 2018
    Date of Patent: September 7, 2021
    Inventor: Ibrahim Abdulhalim
  • Publication number: 20210240019
    Abstract: The present invention describes a liquid crystal composite tunable device for fast polarisation-independent modulation of an incident light beam comprising: (a) two supporting and functional panels, at least one of them coated with a transparent conductive electrode layer and with optionally at least one additional layer selected from an alignment layer, antireflective coating layer, thermochromic or electrochromic layer, photoconductive or photosensitive layer, and (b) a composite structure sandwiched between said two panels and made of a liquid crystal and porous microparticles infiltrated with said liquid crystal. The porous microparticles have an average refractive index approximately equals to one of the liquid crystal principal refractive indices, matching that of the liquid crystal at one orientational state (for example, parallel n?), and exhibiting large mismatch at another orientational state (for example, perpendicular n?).
    Type: Application
    Filed: April 19, 2021
    Publication date: August 5, 2021
    Inventor: Ibrahim ABDULHALIM
  • Publication number: 20210072570
    Abstract: The present invention describes a liquid crystal composite tunable device for fast polarisation-independent modulation of an incident light beam comprising: (a) two supporting and functional panels, at least one of them coated with a transparent conductive electrode layer and with optionally at least one additional layer selected from an alignment layer, antireflective coating layer, thermochromic or electrochromic layer, photoconductive or photosensitive layer, and (b) a composite structure sandwiched between said two panels and made of a liquid crystal and porous microparticles infiltrated with said liquid crystal. The porous microparticles have an average refractive index approximately equals to one of the liquid crystal principal refractive indices, matching that of the liquid crystal at one orientational state (for example, parallel n?), and exhibiting large mismatch at another orientational state (for example, perpendicular n?).
    Type: Application
    Filed: July 11, 2018
    Publication date: March 11, 2021
    Inventor: Ibrahim ABDULHALIM
  • Patent number: 10801956
    Abstract: The invention relates to the field of surface waves based optical devices particularly tuneable optical filter, optical biosensors and spatial light modulators. An optical sensor and tuneable filter is disclosed based on high contrast periodic structures deposited on a substrate and using a compact reading method for low detection limit using a one dimensionally diverging quasi-monochromatic beam and a camera.
    Type: Grant
    Filed: August 21, 2016
    Date of Patent: October 13, 2020
    Assignee: PHOTONICSYS LTD.
    Inventor: Ibrahim Abdulhalim
  • Patent number: 10634560
    Abstract: A system is described that combines spectropolarimetry with scatterometry. The system uses an annular mirror and liquid crystal devices to control the angle of the incident light cone, the polarization and wavelength, an imaging setup and one or more video cameras so that spectroscopic-polarimetric-scatterometric images can be grabbed rapidly. The system is also designed to incorporate additional imaging modes such as interference, phase contrast, fluorescence and Raman spectropolarimetric imaging.
    Type: Grant
    Filed: October 7, 2018
    Date of Patent: April 28, 2020
    Inventor: Ibrahim Abdulhalim
  • Patent number: 10451412
    Abstract: Disclosed is a method for determining an overlay error between at least two layers in a multiple layer sample. An imaging optical system is used to measure multiple measured optical signals from multiple periodic targets on the sample, and the targets each have a first structure in a first layer and a second structure in a second layer. There are predefined offsets between the first and second structures A scatterometry overlay technique is used to analyze the measured optical signals of the periodic targets and the predefined offsets of the first and second structures of the periodic targets to thereby determine an overlay error between the first and second structures of the periodic targets. The scatterometry overlay technique is a phase based technique, and the imaging optical system is configured to have an illumination and/or collection numerical aperture (NA) and/or spectral band selected so that a specific diffraction order is collected and measured for the plurality of measured optical signals.
    Type: Grant
    Filed: June 2, 2017
    Date of Patent: October 22, 2019
    Assignee: KLA-Tencor Corporation
    Inventors: Michael Adel, Walter D. Mieher, Ibrahim Abdulhalim, Ady Levy, Michael Friedmann
  • Publication number: 20190101380
    Abstract: Herein is provided a simplified method for performing multiple wavelength phase shift interferometry measurements that is implemented by modulating each of the monochromatic light sources with a different carrier frequency, combining them to a single beam, detecting all wavelengths simultaneously using the same detectors and separating them via Fourier analysis and demodulation of the data. This approach offers both a simplification to the optical system and reduces the duration of time required to perform the multiple wavelength measurement, based on a simple data extraction algorithm decoding the information for each wavelength. When combined with the parallel phase shift orthogonal polarization interferometric microscopy this method provides fast, stable, high precision 3D imaging and displacements sensing. Also disclosed are embodiments of optical systems designed to carry out the method.
    Type: Application
    Filed: March 16, 2017
    Publication date: April 4, 2019
    Applicant: B.G. NEGEV TECHNOLOGIES AND APPLICATIONS LTD., AT BEN-GURION UNIVERSITY
    Inventors: Ibrahim ABDULHALIM, Michael NEY
  • Publication number: 20190049301
    Abstract: A system is described that combines spectropolarimetry with scatterometry. The system uses an annular mirror and liquid crystal devices to control the angle of the incident light cone, the polarization and wavelength, an imaging setup and one or more video cameras so that spectroscopic-polarimetric-scatterometric images can be grabbed rapidly. The system is also designed to incorporate additional imaging modes such as interference, phase contrast, fluorescence and Raman spectropolarimetric imaging.
    Type: Application
    Filed: October 7, 2018
    Publication date: February 14, 2019
    Inventor: Ibrahim ABDULHALIM
  • Patent number: 10190867
    Abstract: The invention is a system and method that enable obtaining ultra-high resolution interference, phase and OCT images at high speed. The system uses neither mechanical moving elements nor any optical/electro optical modulating means for obtaining the OCT images. Two OCT operating modes are available: for ultra-high resolution the system allows either spatial coherence TD-FF-OCT or temporal coherence TD-FF-OCT imaging, whereas for high resolution and ultra-high speed the system allows FD-FF-OCT imaging with full range imaging. In the TD mode, the OCT enface images are obtained in real time. In the FD mode, the 2D complex signal is reconstructed in real time. In both cases the method has the advantage of very high speed imaging with great immunity to noise.
    Type: Grant
    Filed: February 3, 2015
    Date of Patent: January 29, 2019
    Assignee: B. G. NEGEV TECHNOLOGIES AND APPLICATIONS LTD., AT BEN-GURION UNIVERSITY
    Inventors: Avner Safrani, Ibrahim Abdulhalim
  • Patent number: 10151634
    Abstract: A system is described that combines spectropolarimetry with scatterometry. The system uses an annular mirror and liquid crystal devices to control the angle of the incident light cone, the polarization and wavelength, an imaging setup and one or more video cameras so that spectroseopic-polarimetric-scatterometric images can be grabbed rapidly. The system is also designed to incorporate additional imaging modes such as interference, phase contrast, fluorescence and Raman spectropolarimetric imaging.
    Type: Grant
    Filed: November 11, 2015
    Date of Patent: December 11, 2018
    Inventor: Ibrahim Abdulhalim
  • Patent number: 10151584
    Abstract: A method and system to measure misalignment error between two overlying or interlaced periodic structures are proposed. The overlying or interlaced periodic structures are illuminated by incident radiation, and the diffracted radiation of the incident radiation by the overlying or interlaced periodic structures are detected to provide an output signal. The misalignment between the overlying or interlaced periodic structures may then be determined from the output signal.
    Type: Grant
    Filed: October 30, 2017
    Date of Patent: December 11, 2018
    Assignee: KLA-Tencor Corporation
    Inventors: Ibrahim Abdulhalim, Mike Adel, Michael Friedmann, Michael Faeyrman
  • Patent number: 10146094
    Abstract: The invention is a tunable achromatic wave plate comprised of two or more retarders made of electrooptic or magnetooptic materials arranged at different orientations with respect to each other and at least one voltage source configured to tune the retardation dispersion of each of the retarders by applying an external electric or magnetic field to each retarder separately. Also described are examples of optical systems in which the invention can be employed.
    Type: Grant
    Filed: August 5, 2015
    Date of Patent: December 4, 2018
    Inventors: Ibrahim Abdulhalim, Marwan Abu Leil
  • Patent number: 10126582
    Abstract: The invention is an optical system for up-conversion of SWIR images into visible images. The optical system of the invention comprises a liquid crystal optically addressed spatial light modulator (LC-OASLM), which acts as an optical valve, and two optionally GRADIUM lenses to reduce the size and complexity of the optical setup. In embodiments of the invention, the photosensitive layer is replaced by a photodiode or array of photodiodes and the liquid crystal layer is replaced by an array (film) of organic light emitting diodes which emit light at the VIS by collecting SWIR light or by a fluorescence layer with sensitivity in the SWIR range.
    Type: Grant
    Filed: June 13, 2016
    Date of Patent: November 13, 2018
    Assignee: B. G. Negev Technologies and Applications, Ltd., at Ben-Gurion University
    Inventors: Avner Safrani, Ibrahim Abdulhalim, Viki Magen, Gabby Sarusi