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Description: The A325sc is designed from the ground up to deliver the accurate thermographic imaging and repeatable temperature measurement necessary in research and science applications. Each thermal image is built from over 76,000 individual picture elements that are sampled by the camera’s on-board
- Operating Temperature Range: -4 to 3632 F
- Spectral Range: 7.5 to 13 microns
- Accuracy: 2 ±% Full Scale
- Maximum Frame Rate: 60 frames per second
Description: Ideal for Applications in the 3 9μm Range 1/4λ and 1/2λ Retardance Mounted for Easy Alignment and System Integration Our zero order Mid-Wave Infrared (MWIR) and Long-Wave Infrared (LWIR) Waveplates are designed for applications in the 3 9μm wavelength range. When compared
- Polarizer Type: Waveplate / Retardation Plate
- Clear Aperture: 0.3937 inch
Description: Infrared Cameras for Research & Science The FLIR SC7000 Series is specifically designed for academic and industrial research and science applications as well as integrators who require a flexible camera with high sensitivity, accuracy, spatial resolution, and speed at an affordable cost.
- Operating Temperature Range: -112 to 5432 F
- Spectral Range: 7.85 to 9.5 microns
- Accuracy: 1 ±% Full Scale
- Maximum Frame Rate: 115 to 62000 frames per second
Description: Aluminum Substrate Mirrors Ideal for LWIR Laser Applications Aluminum and Gold Coating Options These aluminum substrate, diamond turned Metal Mirrors are available with either a protected aluminum or gold coating, and are ideal for LWIR (greater than 2000nm) laser applications. Due to the 17.5nm
- Mirror Shape: Round
- Diameter/Width: 1.5 inch
- Thickness: 0.3740 inch
- Mirror Materials: Other Mirror Material
Supplier: Materion Corporation
Description: on a variety of Infrared substrates used in the SWIR and LWIR. Typical materials coated include Germanium, Silicon, Sapphire, ZnS, ZnSe and GaAs. We also offer low temperature coatings on Chalcogenide materials. Our coating chambers employ planetary-based motion for even coating distribution on flat
- Filter Type: Short Pass Filters, Long Pass Filters
Supplier: TELOPS, Inc.
Description: in the MWIR (InSb) or LWIR (MCT) with high acquisition rate. The instrument features user selectable gain and programmable field-of-view for adapting to varying scene conditions.
- Wavelength Range: 1500 to 14000 nm
- Display Type: Video
- Mounting / Environment: Portable, In-situ / Field
Supplier: Electrophysics Corp.
Description: These high performance infrared imaging engines are based on cryogenically cooled MCT infrared detectors. A variety of models are available including short-wave SWIR (800nm - 2.5μm), mid-wave MWIR (3-5μm or 1.5-5µm), and long-wave LWIR (7.7-9.5μm or 7.7-11.5μm) models
Supplier: ABB Process Automation Division
Description: . It features high performance in the wide spectral range covering simultaneously the LWIR and MWIR region of the Electro Magnetic Spectrum while configured in its "dual-band" operational mode. Built around the proven high-performances ABB' MR Series FT-IR technology, Versatility of its
Supplier: Umicore Materials
Description: μm deposited from UMICORE DyF3 material. The wide spectral range of transparency, a good evaporation behaviour and low to moderate stress make this material useful as the L-index material in AR coatings, optical filters and laser protection coatings expecially in the NIR and MIR (LWIR) spectral
- Type: Specialty / Other
- Materials Processed: Specialty / Other
- Melting Point / Range: 2111 F
- Index of Refraction: 1.38 to 1.63 #
Description: passbands from X-ray to the long-wave infrared (LWIR). The blocking capabilities of metallic blockers are augmented by the addition of color transmitting glass and custom dyes that absorb UV or long wavelength radiation. After thin film deposition is complete, the three sections are scribed, laminated, cut
- Filter Shape: Circular
- Diameter, Square Side, or Rectangular Length: 0.4921 inch
- Center Wavelength: 610 nm
- Filter Bandpass: 10 nm
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Cascade Optical Corp.
IR Filters-NIR , MWIR, and LWIR
Cascade Optical Corporation has been making IR filters for over 25 years. We work with NIR , MWIR, and LWIR. We also have the distinct advantage of manufacturing Exotic substrate material suitable for each band. NIR 0.8 -1.8 μm --applications can range anywhere from Telecommunications and Spectroscopy to Night Vision. Where, MWIR 3 -5 μm is typically used on heat seeking missiles where the jet engine photon emission is the greatest. And, LWIR 8 -12 is often used for thermal imaging... (read more)
Browse Coating Services Datasheets for Cascade Optical Corp.
Knight Optical Ltd.
Custom zinc selenide sulphide optical components
Selenide (ZnSe) Optics for Infra-Red Systems. Knight Optical can offer Zinc Selenide (ZnSe) Optics for Infra-red systems over the waveband of 0.6 to 21 µm. We offer ZnSe optics for the NIR (0.7-1.5), MWIR (3 to 5 µm), and LWIR (8 to 20 µm) Imaging Systems. ZnSe has a good transmission in the MWIR and LWIR wavelengths, and can be used with Silicon or Germanium, given its refractive index range is lower than the two of them, to form corrected doublets and lens systems. Contact our... (read more)
Browse Optical Windows Datasheets for Knight Optical Ltd.
Knight Optical Ltd.
supplies Germanium (Ge) Optics for Infra-red systems over the waveband of 1.7 to 14 µm. We offer Ge optics for MWIR (3 to 5 µm) and LWIR (8 to 12 µm) Imaging Systems. Ge has a good transmission in the MWIR band, and can be used with Silicon or Zinc Selenide, given its refractive index range is higher than the two of them, to form corrected doublets and lens systems. These systems include, for example, Forward Looking Infra-Red (FLIR) systems, and thermography. Contact our... (read more)
Browse Optical Windows Datasheets for Knight Optical Ltd.
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Infrared Wire Grid Polarizers -Metrology and Modeling
Broad and narrow-band wire grid polarizer (WGP) products suitable for MWIR and LWIR applications requiring high contrast were developed on antireflection (AR) coated silicon using Moxtek nanowire patterning capabilities. Accurate metrology was gathered in both transmission and reflection from
Nanowire Grid Polarizers for Mid- and Long-Wavelength Infrared Applications
High contrast wire grid polarizers on silicon suitable for mid-wavelength infrared (MWIR) and long-wavelength infrared (LWIR) applications have been developed using wafer-scale aluminum nanowire patterning capabilities. The 144 nm. pitch MWIR polarizer typically transmits better than 95%
Full Body Scan Including Coronary Artery Evaluations Using FLIR Sensors
of the body, and are suitable for the evaluations of stenoses in the carotid, coronary, and other critical arteries. A single shot of the section of the body in question is obtained with a FLIR sensor or camera that can acquire IR signals in the SWIR, MWIR, or LWIR wavelengths. Then, a low wattage IR
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./ Lwir /L14_15/L14_15 .
Hyperspectral Remote Sensing
LWIR longwave infrared .
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4.3 Non-Radiometric LWIR Camera Calibration.................................................................................158 .
Buried Long Period Grating For Laser Applications
� by reflections, an antiparallel laser beam and its corresponding low power broad band LWIR (long wavelength infrared �
Mercury Cadmium Telluride: Growth Properties and Applications Complete Document
14.3.2 LWIR and MWIR MCT 323 .
Fundamentals of Infrared Detector Materials
8.5.1 LWIR 14 m at 40 K 143 .
Computer Vision Beyond the Visible Spectrum
� SWIR: 1�2.5 �m), mid-wave IR (MWIR:3�5 �m), and long-wave IR ( LWIR : 8�12 �m).
� intensity for three single-layer metallic-grating filters with dielectric fill plotted across the MWIR and LWIR .
Infrared wire grid polarizers: metrology and modeling
Broad and narrow-band wire grid polarizer (WGP) products suitable for MWIR and LWIR applications requiring high �
Observation of the launch of the Atlas 5 EELV with a dual-band QWIP focal plane array
� a second between wavelengths of 8 and 14 �m (the so-called long-wavelength infrared or LWIR ).
3rd generation 1280 x 720 FPA development status at Raytheon Vision Systems
� developed and demonstrated the first-ever 1280 x 720 pixel dual-band MW/ LWIR focal plane arrays �
Comparison of HgCdTe and QWIP dual-band focal plane arrays
We report on results of laboratory and field tests of dual-band MWIR/ LWIR focal plane arrays �