Patents by Inventor Muzammil A. Arain

Muzammil A. Arain 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).

  • Publication number: 20240115127
    Abstract: The system, method and device includes an optical coherence tomography (OCT) system switchable between single scan mode or multi-scan mode. This is achieved by use of multiple beam splitters to produce multiple OCT beams, but the system still uses a single light source, a single sample arm, and single reference arm to achieve a compact, more cost effective, system. Additionally presented is a spectral domain OCT system with a spectrometer having multiple grating, each providing a different depth and/or resolution imaging capability.
    Type: Application
    Filed: September 29, 2023
    Publication date: April 11, 2024
    Applicant: Carl Zeiss Meditec, Inc.
    Inventors: Muzammil A. Arain, Sophie Kubach, Jochen Straub, Tilman Schmoll
  • Publication number: 20230408699
    Abstract: A time-of-flight (ToF) sensor includes a photodetector array and a processing circuit. The photodetector array includes a plurality of photodetectors wherein each photodetector of the photodetector array includes a silicon-based, light-sensitive diode. Each silicon-based, light-sensitive diode includes a photosensitive layer comprising a plurality of quantum dot particles sensitive to a near infrared (NIR) region of an electromagnetic spectrum, wherein the plurality of quantum dot particles converts optical energy into electrical energy to generate an electrical current in response to receiving NIR light having a wavelength in the NIR region. The processing circuit is configured to receive the electrical current and calculate a time-of-flight of the received NIR light based on the electrical current.
    Type: Application
    Filed: June 9, 2022
    Publication date: December 21, 2023
    Applicant: Infineon Technologies AG
    Inventors: Adrian MIKOLAJCZAK, Muzammil ARAIN
  • Patent number: 11676255
    Abstract: Generating a correction algorithm includes obtaining a model of an eye, the model including a front portion with optics to mimic a cornea and a lens of a human eye, and a rear portion having a generally hemispherical-shaped body to mimic a retina of the human eye. The rear portion includes physical reference lines on an inside surface of the generally hemispherical-shaped body. Images of the model are captured using an image capturing device aimed at the model. Vertices of the physical reference lines are identified according to a given projection technique for displaying generally hemispherical-shaped body in a two-dimensional image in the captured images. Idealized placement of the vertices of the physical reference lines is obtained according to the given projection technique. The result is a correction algorithm used to adjust any pixel of an image of an actual eye in the x-axis and in the y-axis.
    Type: Grant
    Filed: August 13, 2021
    Date of Patent: June 13, 2023
    Assignee: Optos Plc
    Inventors: Muzammil A. Arain, Jeffery Benshetler, Eugene Russiyanov, Tushar M. Ranchod
  • Patent number: 11499814
    Abstract: An optical coherence tomography (OCT) system (63) is used to inspect bonding points (66A, 66B, 66C) sandwiched between two materials (layers 62, 64 of e.g. displays). The OCT differentiates between a bonding point, e.g. a weld, and air gaps between the two materials. The bonding points are identified as breaks in the air gap between the materials. By extracting various physical characteristics of the bonding points and the gap between the two materials, the present system determines whether the bonding is faulty.
    Type: Grant
    Filed: June 12, 2019
    Date of Patent: November 15, 2022
    Assignees: CARL ZEISS AG, CARL ZEISS INDUSTRIAL METROLOGY LLC, CARL ZEISS MEDITEC, INC.
    Inventors: Michael Totzeck, Marcin B. Bauza, Jochen Straub, Muzammil Arain, Matthew J. Everett
  • Patent number: 11412928
    Abstract: An ophthalmic imaging system has a specialized graphical user interface GUI to convey information for manually adjusting control inputs to bring an eye into alignment with the device. The GUI provides additional information such as laterality, visual alignment overlay aids, and live video feeds. The system further applies automatic gain control to fundus images, synchronizes itself with other ophthalmic systems on a computer network, and provides an optimized image load and display system.
    Type: Grant
    Filed: August 10, 2018
    Date of Patent: August 16, 2022
    Assignees: Carl Zeiss Meditec, Inc., Carl Zeiss Meditec AG
    Inventors: Gregory Anderson, Muzammil Arain, Keith Brock, Scott Chang, Matthew J. Everett, Zubir Khan, Archana Kolli, Priya Kulkarni, Benjamin Kwok, Conor Leahy, Gary Lee, Jennifer Luu, Pranav Malvania, David Nolan, Keith O'Hara, Sunny Virmani, Richard Orlowski
  • Publication number: 20220180489
    Abstract: Generating a correction algorithm includes obtaining a model of an eye, the model including a front portion with optics to mimic a cornea and a lens of a human eye, and a rear portion having a generally hemispherical-shaped body to mimic a retina of the human eye. The rear portion includes physical reference lines on an inside surface of the generally hemispherical-shaped body. Images of the model are captured using an image capturing device aimed at the model. Vertices of the physical reference lines are identified according to a given projection technique for displaying generally hemispherical-shaped body in a two-dimensional image in the captured images. Idealized placement of the vertices of the physical reference lines is obtained according to the given projection technique. The result is a correction algorithm used to adjust any pixel of an image of an actual eye in the x-axis and in the y-axis.
    Type: Application
    Filed: August 13, 2021
    Publication date: June 9, 2022
    Applicant: BROADSPOT IMAGING CORP.
    Inventors: Muzammil A. ARAIN, Jeff BENSHETLER, Eugenio RUSSIYANOV, Tushar M. RANCHOD
  • Publication number: 20210215470
    Abstract: An optical coherence tomography (OCT) system (63) is used to inspect bonding points (66A, 66B, 66C) sandwiched between two materials (layers 62, 64 of e.g. displays). The OCT differentiates between a bonding point, e.g. a weld, and air gaps between the two materials. The bonding points are identified as breaks in the air gap between the materials. By extracting various physical characteristics of the bonding points and the gap between the two materials, the present system determines whether the bonding is faulty.
    Type: Application
    Filed: June 12, 2019
    Publication date: July 15, 2021
    Inventors: Michael TOTZECK, Marcin B. BAUZA, Jochen STRAUB, Muzammil ARAIN, Matthew J. EVERETT
  • Publication number: 20200196863
    Abstract: An ophthalmic imaging system has a specialized graphical user interface GUI to convey information for manually adjusting control inputs to bring an eye into alignment with the device. The GUI provides additional information such as laterality, visual alignment overlay aids, and live video feeds. The system further applies automatic gain control to fundus images, synchronizes itself with other ophthalmic systems on a computer network, and provides an optimized image load and display system.
    Type: Application
    Filed: August 10, 2018
    Publication date: June 25, 2020
    Applicants: Carl Zeiss Meditec, Inc., Carl Zeiss Meditec AG, Carl Zeiss Meditec AG
    Inventors: Gregory ANDERSON, Muzammil ARAIN, Keith BROCK, Scott CHANG, Matthew J. EVERETT, Zubir KHAN, Archana KOLLI, Priya KULKARNI, Benjamin KWOK, Conor LEAHY, Gary LEE, Jennifer LUU, Pranav MALVANIA, David NOLAN, Keith O'HARA, Sunny VIRMANI, Richard ORLOWSKI
  • Patent number: 10203247
    Abstract: A system for providing illumination to a measurement head for optical metrology is configured to combine illumination beams from a plurality of illumination sources to deliver illumination at one or more selected wavelengths to the measurement head. The intensity and/or spatial coherence of illumination delivered to the measurement head is controlled. Illumination at one or more selected wavelengths is delivered from a broadband illumination source configured for providing illumination at a continuous range of wavelengths.
    Type: Grant
    Filed: December 5, 2016
    Date of Patent: February 12, 2019
    Assignee: KLA-Tencor Corporation
    Inventors: Gregory R. Brady, Andrei V. Shchegrov, Lawrence D. Rotter, Derrick A. Shaughnessy, Anatoly Shchemelinin, Ilya Bezel, Muzammil A. Arain, Anatoly A. Vasiliev, James Andrew Allen, Oleg Shulepov, Andrew V. Hill, Ohad Bachar, Moshe Markowitz, Yaron Ish-Shalom, Ilan Sela, Amnon Manassen, Alexander Svizher, Maxim Khokhlov, Avi Abramov, Oleg Tsibulevsky, Daniel Kandel, Mark Ghinovker
  • Patent number: 9857292
    Abstract: A rotatable compensator configured to transmit non-collimated light over a broad range of wavelengths, including ultraviolet, with a high degree of retardation uniformity across the aperture is presented. In one embodiment, a rotatable compensator includes a stack of four individual plates in optical contact. The two thin plates in the middle of the stack are made from a birefringent material and are arranged to form a compound, zeroth order bi-plate. The remaining two plates are relatively thick and are made from an optically isotropic material. These plates are disposed on either end of the compound, zeroth order bi-plate. The low order plates minimize the sensitivity of retardation across the aperture to non-collimated light. Materials are selected to ensure transmission of ultraviolet light. The optically isotropic end plates minimize coherence effects induced at the optical interfaces of the thin plates.
    Type: Grant
    Filed: November 7, 2016
    Date of Patent: January 2, 2018
    Assignee: KLA-Tencor Corporation
    Inventors: Lawrence Rotter, Klaus Flock, Muzammil Arain, David Y. Wang
  • Publication number: 20170146399
    Abstract: A system for providing illumination to a measurement head for optical metrology is configured to combine illumination beams from a plurality of illumination sources to deliver illumination at one or more selected wavelengths to the measurement head. The intensity and/or spatial coherence of illumination delivered to the measurement head is controlled. Illumination at one or more selected wavelengths is delivered from a broadband illumination source configured for providing illumination at a continuous range of wavelengths.
    Type: Application
    Filed: December 5, 2016
    Publication date: May 25, 2017
    Inventors: Gregory R. Brady, Andrei V. Shchegrov, Lawrence D. Rotter, Derrick A. Shaughnessy, Anatoly Shchemelinin, Ilya Bezel, Muzammil A. Arain, Anatoly A. Vasiliev, James Andrew Allen, Oleg Shulepov, Andrew V. Hill, Ohad Bachar, Moshe Markowitz, Yaron Ish-Shalom, Ilan Sela, Amnon Manassen, Alexander Svizher, Maxim Khokhlov, Avi Abramov, Oleg Tsibulevsky, Daniel Kandel, Mark Ghinovker
  • Publication number: 20170052112
    Abstract: A rotatable compensator configured to transmit non-collimated light over a broad range of wavelengths, including ultraviolet, with a high degree of retardation uniformity across the aperture is presented. In one embodiment, a rotatable compensator includes a stack of four individual plates in optical contact. The two thin plates in the middle of the stack are made from a birefringent material and are arranged to form a compound, zeroth order bi-plate. The remaining two plates are relatively thick and are made from an optically isotropic material. These plates are disposed on either end of the compound, zeroth order bi-plate. The low order plates minimize the sensitivity of retardation across the aperture to non-collimated light. Materials are selected to ensure transmission of ultraviolet light. The optically isotropic end plates minimize coherence effects induced at the optical interfaces of the thin plates.
    Type: Application
    Filed: November 7, 2016
    Publication date: February 23, 2017
    Inventors: Lawrence Rotter, Klaus Flock, Muzammil Arain, David Y. Wang
  • Patent number: 9519093
    Abstract: A rotatable compensator configured to transmit non-collimated light over a broad range of wavelengths, including ultraviolet, with a high degree of retardation uniformity across the aperture is presented. In one embodiment, a rotatable compensator includes a stack of four individual plates in optical contact. The two thin plates in the middle of the stack are made from a birefringent material and are arranged to form a compound, zeroth order bi-plate. The remaining two plates are relatively thick and are made from an optically isotropic material. These plates are disposed on either end of the compound, zeroth order bi-plate. The low order plates minimize the sensitivity of retardation across the aperture to non-collimated light. Materials are selected to ensure transmission of ultraviolet light. The optically isotropic end plates minimize coherence effects induced at the optical interfaces of the thin plates.
    Type: Grant
    Filed: August 22, 2014
    Date of Patent: December 13, 2016
    Assignee: KLA-Tencor Corporation
    Inventors: Lawrence Rotter, Klaus Flock, Muzammil Arain, David Y. Wang
  • Patent number: 9512985
    Abstract: The disclosure is directed to systems for providing illumination to a measurement head for optical metrology. In some embodiments of the disclosure, illumination beams from a plurality of illumination sources are combined to deliver illumination at one or more selected wavelengths to the measurement head. In some embodiments of the disclosure, intensity and/or spatial coherence of illumination delivered to the measurement head is controlled. In some embodiments of the disclosure, illumination at one or more selected wavelengths is delivered from a broadband illumination source configured for providing illumination at a continuous range of wavelengths.
    Type: Grant
    Filed: February 22, 2013
    Date of Patent: December 6, 2016
    Assignee: KLA-Tencor Corporation
    Inventors: Gregory R. Brady, Andrei V. Shchegrov, Lawrence D. Rotter, Derrick Shaughnessy, Anatoly Shchemelinin, Ilya Bezel, Muzammil A. Arain, Anatoly A. Vasiliev, James Andrew Allen, Oleg Shulepov, Andrew V. Hill, Ohad Bachar, Moshe Markowitz, Yaron Ish-Shalom, Ilan Sela, Amnon Manassen, Alexander Svizher, Maxim Khokhlov, Avi Abramov, Oleg Tsibulevsky, Daniel Kandel, Mark Ghinovker
  • Patent number: 9310290
    Abstract: An apparatus includes (i) a bright light source for providing an illumination beam at multiple wavelengths selectable with a range from a deep ultraviolet wavelength to an infrared wavelength, (ii) illumination optics for directing the illumination beam towards a sample at selectable sets of angles of incidence (AOI's) or azimuth angles (AZ's) and polarization states to provide spectroscopic ellipsometry, wherein the illumination optics include an apodizer for controlling a spot size of the illumination beam on the sample at each of the selectable AOI/AZ sets, (iii) collection optics for directing an output beam from the sample in response to the illumination beam at each of the selectable AOI/AZ sets and polarization states towards a detector that generates an output signal or image based on the output beam, and (v) a controller for characterizing a feature of the sample based on the output signal or image.
    Type: Grant
    Filed: June 19, 2015
    Date of Patent: April 12, 2016
    Assignee: KLA-Tencor Corporation
    Inventors: David Y. Wang, Klaus Flock, Lawrence Rotter, Shankar Krishnan, Johannes D. de Veer, Catalin Filip, Gregory Brady, Muzammil Arain, Andrei Shchegrov
  • Publication number: 20150285735
    Abstract: An apparatus includes (i) a bright light source for providing an illumination beam at multiple wavelengths selectable with a range from a deep ultraviolet wavelength to an infrared wavelength, (ii) illumination optics for directing the illumination beam towards a sample at selectable sets of angles of incidence (AOI's) or azimuth angles (AZ's) and polarization states to provide spectroscopic ellipsometry, wherein the illumination optics include an apodizer for controlling a spot size of the illumination beam on the sample at each of the selectable AOI/AZ sets, (iii) collection optics for directing an output beam from the sample in response to the illumination beam at each of the selectable AOI/AZ sets and polarization states towards a detector that generates an output signal or image based on the output beam, and (v) a controller for characterizing a feature of the sample based on the output signal or image.
    Type: Application
    Filed: June 19, 2015
    Publication date: October 8, 2015
    Applicant: KLA- Tencor Corporation
    Inventors: David Y. Wang, Klaus Flock, Lawrence Rotter, Shankar Krishnan, Johannes D. de Veer, Catalin Filip, Gregory Brady, Muzammil Arain, Andrei Shchegrov
  • Patent number: 9116103
    Abstract: An apparatus includes (i) a bright light source for providing an illumination beam at multiple wavelengths selectable with a range from a deep ultraviolet wavelength to an infrared wavelength, (ii) illumination optics for directing the illumination beam towards a sample at selectable sets of angles of incidence (AOI's) or azimuth angles (AZ's) and polarization states to provide spectroscopic ellipsometry, wherein the illumination optics include an apodizer for controlling a spot size of the illumination beam on the sample at each of the selectable AOI/AZ sets, (iii) collection optics for directing an output beam from the sample in response to the illumination beam at each of the selectable AOI/AZ sets and polarization states towards a detector that generates an output signal or image based on the output beam, and (v) a controller for characterizing a feature of the sample based on the output signal or image.
    Type: Grant
    Filed: October 1, 2013
    Date of Patent: August 25, 2015
    Assignee: KLA-Tencor Corporation
    Inventors: David Y. Wang, Klaus Flock, Lawrence Rotter, Shankar Krishnan, Johannes D. de Veer, Catalin Filip, Gregory Brady, Muzammil Arain, Andrei Shchegrov
  • Publication number: 20150055123
    Abstract: A rotatable compensator configured to transmit non-collimated light over a broad range of wavelengths, including ultraviolet, with a high degree of retardation uniformity across the aperture is presented. In one embodiment, a rotatable compensator includes a stack of four individual plates in optical contact. The two thin plates in the middle of the stack are made from a birefringent material and are arranged to form a compound, zeroth order bi-plate. The remaining two plates are relatively thick and are made from an optically isotropic material. These plates are disposed on either end of the compound, zeroth order bi-plate. The low order plates minimize the sensitivity of retardation across the aperture to non-collimated light. Materials are selected to ensure transmission of ultraviolet light. The optically isotropic end plates minimize coherence effects induced at the optical interfaces of the thin plates.
    Type: Application
    Filed: August 22, 2014
    Publication date: February 26, 2015
    Inventors: Lawrence Rotter, Klaus Flock, Muzammil Arain, David Y. Wang
  • Publication number: 20140375981
    Abstract: An apparatus includes (i) a bright light source for providing an illumination beam at multiple wavelengths selectable with a range from a deep ultraviolet wavelength to an infrared wavelength, (ii) illumination optics for directing the illumination beam towards a sample at selectable sets of angles of incidence (AOI's) or azimuth angles (AZ's) and polarization states to provide spectroscopic ellipsometry, wherein the illumination optics include an apodizer for controlling a spot size of the illumination beam on the sample at each of the selectable AOI/AZ sets, (iii) collection optics for directing an output beam from the sample in response to the illumination beam at each of the selectable AOI/AZ sets and polarization states towards a detector that generates an output signal or image based on the output beam, and (v) a controller for characterizing a feature of the sample based on the output signal or image.
    Type: Application
    Filed: October 1, 2013
    Publication date: December 25, 2014
    Applicant: KLA-Tencor Corporation
    Inventors: David Y. Wang, Klaus Flock, Lawrence Rotter, Shankar Krishnan, Johannes D. de Veer, Catalin Filip, Gregory Brady, Muzammil Arain, Andrei Shchegrov
  • Publication number: 20130245985
    Abstract: Methods and systems for matching critical dimension measurement applications at high precision across multiple optical metrology systems are presented. In one aspect, machine parameter values of a metrology system are calibrated based on critical dimension measurement data. In one further aspect, calibration of the machine parameter values is based on critical dimension measurement data collected by a target measurement system from a specimen with assigned critical dimension parameter values obtained from a reference measurement source. In another further aspect, the calibration of the machine parameter values of a target measurement system is based on measurement data without knowledge of critical dimension parameter values. In some examples, the measurement data includes critical dimension measurement data and thin film measurement data.
    Type: Application
    Filed: March 11, 2013
    Publication date: September 19, 2013
    Applicant: KLA-TENCOR CORPORATION
    Inventors: Klaus Flock, Lawrence Rotter, Muzammil Arain