1. UTC Aerospace Systems

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    1. Mentioned In 39 Articles

    2. Optical Coherence Tomography Used $500M of Federally Funded Research Over The Past Decade: How was it Used, What was Accomplished, and What’s to Come?

      Optical Coherence Tomography Used $500M of Federally Funded Research Over The Past Decade: How was it Used, What was Accomplished, and What’s to Come?
      ...t light sources.  Another example of government dollars transitioning to commercial dollars includes Goodrich/Sensors Unlimited which is turning defense dollars into high-speed NIR camera systems that appear imminently u...
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    3. Will 2011 be seen as a “Tipping Point” for Industrial Contribution to the Advancement of the Field of Optical Coherence Tomography?

      Comment "See this article http://www.octnews.org/articles/1941968/femto-lasers-in-cataract-surgery/ or this article http://www.aao.org/isrs/resources/outlook/10/04_10_feat.cfm" - Eric Swanson
      Will 2011 be seen as a “Tipping Point” for Industrial Contribution to the Advancement of the Field of Optical Coherence Tomography?
      ... FemtoLasers, Fianium, FLIR, General Photonics, General Scanning, Giga Concept, Global Test, Gooch & Housego, Goodrich Corporation, Hamamatsu, Imaging Eyes, Innolume, InPhenix, Kamelian, Lamda Quest, Lightwaves2020, Micr...
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    4. High-speed (92 kHz) Fourier domain optical coherence tomography system in the 1 μm band with real-time data re-sampling

      High-speed (92 kHz) Fourier domain optical coherence tomography system in the 1 μm band with real-time data re-sampling
      Fourier domain optical coherence tomography requires either a linear-in-wavenumber spectrometer or a computationally heavy software algorithm to recalibrate the acquired optical signal from wavelength to wavenumber. The first method is very sensitive to the position of the prism incorporated in the spectrometer, while the second method drastically slows down the system speed when it is implemented on a serially oriented central processing unit. In this manuscript, a Fourier domain ultra-fast ...
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    5. High-speed high-resolution optical coherence tomography at 800 and 1060 nm

      Two high speed systems for spectrometer based frequency domain optical coherence tomography are presented. A device operating at 800 nm, based on the Basler Sprint CMOS camera with linerates of up to 312,000 lps and a device based on the Goodrich SUI LHD 1024 px camera at 1060 nm with 47,000 lps are applied in a clinical environment to normal subjects. The feasibility of clinical high and ultra ...
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    6. High-speed, high-resolution Fourier-domain optical coherence tomography system for retinal imaging in the 1060 nm wavelength region

      A high-speed (47,000 A-scans/s), ultrahigh axial resolution Fourier domain optical coherence tomography (OCT) system for retinal imaging at ~1060 nm, based on a 1024 pixel linear array, 47 kHz readout rate InGaAs camera is presented. When interfaced with a custom superluminescent diode ... [Opt. Lett. 33, 2479-2481 (2008)]
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    7. 16-30 of 39 « 1 2 3 »
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  2. About UTC Aerospace Systems

    UTC Aerospace Systems

    Sensors Unlimited.  Line Scan Cameras.  Sensors Unlimited, Inc. is now SUI, part of UTC Aerospace Systems. SUI was acquired by Goodrich Corporation on November 1, 2005. In sixteen years, SUI has become the world’s leading manufacturer of indium gallium arsenide (InGaAs) photodiodes, arrays and cameras for near-infrared (NIR) and shortwave infrared (SWIR) imaging applications.   Originally founded in 1991 as an advanced research and development company, SUI quickly grew to become a major supplier of InGaAs technology, products, and shortwave IR imaging solutions.   Now a member of the ISR Systems Division of Goodrich Corporation, the Sensors Unlimted, Inc. facility features an ISO 9001: 2000 certified manufacturing plant occupying over 20,000 square feet and includes Class 100 clean rooms,and a III-V foundry with an MOCVD epitaxial growth wafer fab. Products built on our proprietary InGaAs platform are SWIR cameras, 1- and 2- dimensional focal plane arrays (FPAs), 10 Gb/s avalanche photodiodes (APDs), plus SUI has the resources to custom design structures and devices for a variety of customer requirements. Current deployments include laser tracking for weapons and communication systems, covert and fixed site surveillance, ground and air UV payloads, gimbal sensor assemblies, night vision and free space communications. Other applications for InGaAs technologies and imaging systems include near-infrared spectroscopy, security and surveillance, linescan inspection, process control, laser beam profiling, microscopy, art inspection and astronomy.   The Sensor Unlimited, Inc. management team has a combined total of over 75 years experience in the infrared detector industry, making SUI ready for any shortwave or near infrared imaging challenge. In addition, our highly experienced engineering staff consistently looks to push our technology to the next level, of whom forty-four percent hold an advanced degree. Along with employees, SUI's confidence is rooted in its intellectual property portfolio, which holds 10 patents in InGaAs technology.