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    • Teledyne Princeton Instruments

    Trenton, NJ 08619

    COMPANY OVERVIEW

    About Teledyne Princeton Instruments

    170

    Contact

    3660 Quakerbridge Rd
    Trenton, NJ 08619
    United States
    http://www.princetoninstruments.com
    609-587-9797
    609-587-1970

    More Info on Teledyne Princeton Instruments

    Content Dam Lfw Sponsors O T Teledyne Princeton Instruments X70
    Designs and manufactures high-performance CCD, ICCD, EMCCD, sCMOS cameras and spectrographs, for research, industrial and OEM applications. PI takes pride in partnering with researchers to solve their most challenging problems.

    Products

    Buyer's Guide

    PIXIS-XO 2048B

    PIXIS-XO x-ray cameras utilizes back-illuminated (BI) CCDs without AR coating, for direct detection of the widest range of X-rays between ~ 10 eV and 30 keV. With a 2048 x 2048...
    Buyer's Guide

    PIXIS-XO 2048B

    PIXIS-XO x-ray cameras utilizes back-illuminated (BI) CCDs without AR coating, for direct detection of the widest range of X-rays between ~ 10 eV and 30 keV.
    Buyer's Guide

    SOPHIA-XO 2048B-152 X-ray Cameras

    SOPHIA-XO high-sensitivity, high-speed, thermoelectrically cooled x-ray cameras utilize back-illuminated CCDs for direct detection of the widest range of VUV and x-rays and are...
    Buyer's Guide

    SOPHIA-XO 2048B-152 X-ray Cameras

    SOPHIA-XO high-sensitivity, high-speed, thermoelectrically cooled x-ray cameras utilize back-illuminated CCDs for direct detection of the widest range of VUV and x-rays and are...
    Buyer's Guide

    PIXIS 2048 eXcelon-enhanced deep-depletion CCD cameras

    PIXIS CCD cameras utilize proprietary eXcelon back-illuminated and deep depletion sensor technology to provide significant improvements in sensitivity and fringe suppression and...
    Buyer's Guide

    KURO 2048B sCMOS Cameras

    KURO is the first scientific CMOS (sCMOS) camera to implement back-illuminated sensor technology, delivering fast frame rates and exceptional sensitivity, while eliminating the...
    Buyer's Guide

    ProEM-HS:1024BX3 EMCCD Cameras

    Thermoelectrically cooled ProEM-HS EMCCD cameras incorporate back-illuminated electron- multiplying CCDs (EMCCDs) with proprietary eXcelon3 technology. These state-of-the-art ...
    Buyer's Guide

    NIRvana Family of NIR/SWIR Cameras

    The NIRvana family of focal plane array (FPA) cameras includes the NIRvana, NIRvana ST, and NIRvana LN. These compact cameras include features for tackling demanding, low-light...
    Buyer's Guide

    KURO sCMOS Camera

    KURO is the world’s first scientific CMOS (sCMOS) camera system to implement back-illuminated sensor technology. KURO cameras deliver both the fast frame rates and the exceptional...
    Buyer's Guide

    NIRvana Family of NIR/SWIR Cameras

    The NIRvana family of focal plane array (FPA) cameras includes the NIRvana, NIRvana ST, and NIRvana LN, which are the only scientific-grade InGaAs cameras on the market specifically...

    Articles

    Teledyne Princeton Instruments
    Detectors & Imaging

    Large-array camera designed for mission-critical astronomy operations

    LFW Staff
    The 66 Mpixel deeply cooled COSMOS camera features large-area CMOS image sensor technology.
    Photo 236693909 © Marek Uliasz | Dreamstime.com
    Dreamstime Xl 236693909
    Executive Forum

    Photonics business roundup: April 2022

    Lee Dubay
    Let’s recap all the photonics business news that was announced in April 2022.
    Teledyne Princeton Instruments
    Detectors & Imaging

    CCD cameras feature deep-depletion design

    LFW Staff
    The LANSIS 261 CCD cameras also feature a 30.72 × 3.96 mm sensor.
    Teledyne Princeton Instruments
    Test & Measurement

    Spectrograph has uses in multichannel spectroscopy and hyperspectral imaging

    LFW Staff
    The IsoPlane 320A spectrograph features a patented astigmatism-free Schmidt-Czerny-Turner aberration-corrected optical system design.
    FIGURE 1. Triple spectrograph in additive dispersive mode of operation.
    Test & Measurement

    Efficient Raman spectroscopy for materials science

    Sebastian Remi
    With multistage spectroscopy, researchers can garner crucial information about materials’ internal properties, making them better able to investigate quantum and 2D materials....
    Teledyne Imaging
    Detectors & Imaging

    Large-format CMOS camera provides >90% peak quantum efficiency

    LFW Staff
    The COSMOS large-format, back side-illuminated CMOS camera delivers over 50 fps for capturing dynamic events in astronomy.
    La Cera Pr Image
    Detectors & Imaging

    Large-area CMOS imaging technology delivers quantum efficiency over 90%

    LFW Staff
    LACera CMOS imaging technology has uses in applications such as next-generation genomics, astronomical photometry, and ultra-high-resolution x-ray and electron imaging.
    FIGURE 1. Spectral and spatial information on a two-dimensional spectroscopy camera.
    Spectroscopy

    An introduction to multitrack spectroscopy and its applications

    Sebastian Remi
    Multitrack spectroscopy collects and analyzes data from several input sources with just one spectrometer and detector.
    Teledyne Princeton Instruments
    Spectroscopy

    Teledyne Princeton Instruments Raman spectrometer uses an f/2 spectrograph

    LFW Staff
    The TPIR-785 Raman spectrometer is optimized for the near-infrared region.
    FIGURE 1. The key components of a Raman spectroscopy system are the laser, detector, spectrograph, and probe.
    Spectroscopy

    High-performance near-infrared Raman for clinical application

    Peng Zou, Ph.D.
    Technology advances are enabling Raman spectroscopy for application as a clinical tool.

    Buyer's Guide Listing Information

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    Additional content from Teledyne Princeton Instruments

    (Photo credit: SPIE)
    Attendees make their way into the SPIE Photonics West 2022 exhibition hall.
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    SPIE Photonics West 2023 exhibitor products (UPDATED 1/27)

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    Get a first look at what will be shown on the SPIE Photonics West 2023 exhibit floor.
    Teledyne Princeton Instruments
    Spectroscopy

    Teledyne Princeton Instruments spectrograph features deep-cooled CCD detector

    LFW Staff
    The IsoPlane 81 compact, aberration-free, imaging spectrograph for UV to near-infrared wavelengths has use in microspectroscopy techniques such as Raman, fluorescence, and absorption...
    Teledyne
    Detectors & Imaging

    Teledyne Princeton Instruments SWIR camera provides imaging speeds up to 250 fps

    LFW Staff
    The NIRvana SWIR camera has an InGaAs 640 × 512 focal plane array and a 20 µm/pixel sensor.
    FIGURE 1. Raman spectra of lipid-rich fat tissue (orange) and protein-rich muscle tissue (purple); the broadband, autofluorescence background is clearly visible in both spectra, each of which was collected using a similar acquisition time.
    Spectroscopy

    Spectrometers: Super-deep-depletion CCDs optimize bio-Raman spectroscopy

    Sebastian Remi
    New CCDs deliver 2–7X higher sensitivity in the wavelength range relevant for bio-Raman measurements and allow greater detection limits or shorter experiment times.
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    Teledyne Princeton Instruments PIXIS cameras aiding in search for Earthlike planets

    John Wallace
    The 2nd-gen Multicolor Simultaneous Camera (MuSCAT2) at the Teide Observatory (Canary Islands) will find transiting exoplanets.
    Research

    Augmenting scientific imaging offerings, Teledyne makes new acquisitions

    LFW Staff
    Teledyne Technologies will acquire Princeton Instruments, Photometrics, and Lumenera.
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    Detectors & Imaging

    Princeton Instruments in-vacuum CCD cameras are liquid-cooled

    LFW Staff
    PI-MTE3 in-vacuum CCD cameras are engineered for direct detection in vacuum ultraviolet, extreme ultraviolet, and x-ray imaging applications.
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    Spectroscopy

    Princeton Instruments collaborates with C-SOPS on new pharmaceutical technology

    Conard Holton
    Collaboration uses spectrometer on a novel pharmaceutical technology that enables close monitoring and control of drug manufacturing processes.
    FIGURE 1. A comparison (a) of the signal-to-noise ratio vs. photon intensity for two types of Zyla cameras made by Andor Technology to that of the company’s iXon back-illuminated electron-multiplying CCD (EMCCD) shows that the EMCCD is best for the lowest photon rates, including single photon counting, while sCMOS takes over for higher (but still very low) photon rates). The quantum efficiency (QE) of Andor’s Zyla cameras is optimized for use with a range of fluorophores (b).
    Detectors & Imaging

    Photonics Products: Scientific CMOS Cameras: sCMOS cameras reach new levels of capability

    John Wallace
    sCMOS cameras are now widely used in a variety of leading-edge microscopy techniques, as well as in astronomy and elsewhere.
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    Laser Focus World announces 2018 Innovators Awards

    For the first time, Laser Focus World has held its Innovators Awards program, which celebrates the disparate and innovative technologies, products, and systems found in the photonics...
    (Courtesy of BaySpec)
    FIGURE 1. This handheld 1064 Raman instrument for direct sampling (a) was released in 2010 by BaySpec (the handheld Raman product line was sold and transferred to Rigaku Raman Technology in 2011); a 1064 nm confocal Raman microscope was used to sample highly fluorescent amber at a 2 µm spot size (b).
    Spectroscopy

    Photonics Products: Raman Spectrometers: Emphasis on biosciences

    John Wallace
    Raman spectrometers sensitively detect organic materials for bioscience, medicine, food and agriculture, and forensics.
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    Spectroscopy

    Princeton Instruments spectrograph/monochromator has use in multichannel fiber applications

    LFW Staff
    The SpectraPro HRS-500 500 mm focal length spectrograph and scanning monochromator features high spectral resolution.
    FIGURE 1. Atomic emission lamp spectra acquired using InGaAs (blue) and CCD arrays (red) with a HRS-300 spectrograph and 600 g/mm grating at 1000 nm blaze are compared.
    Spectroscopy

    Spectroscopy: Back-illuminated CCDs enable advanced spectroscopy instrumentation

    Michael Case
    Cameras with exceptional detection capabilities can be designed around high QE, back-illuminated CCD sensors, combined with advanced imaging spectrographs.
    Analysis of high-resolution intravital z-section imagery enables generation of 3D flow maps depicting the microvascular network in a healthy mouse brain; velocity is noted in μm/s.
    Research

    Near-IR Optical Imaging: Shortwave-infrared particles and camera combine for breakthrough in vivo imaging

    Barbara Gefvert
    The particles provide a dramatically higher emission quantum yield, and can be easily modified for various functional-imaging applications.
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    Spectroscopy

    Princeton Instruments imaging spectrograph includes spectral deconvolution technology

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    The SpectraPro HRS-300 imaging spectrograph delivers the spectral resolution and astigmatism correction needed for advanced microspectroscopy and multichannel fiber applications...
    FIGURE 1. Absorption and emission cross-sections were determined for a Fe:CdMnTe sample at 80 K; the plot includes absorption features of water (H2O) and carbon dioxide (CO2).
    Lasers & Sources

    Mid-IR Lasers: Ternary-crystal mid-IR laser shows power-scaling promise

    John Wallace
    Specially grown Fe:CdMnTe crystal that emits in the 5 μm spectral region could be made wavelength-tunable in the future.
    (Pseudo-color image courtesy of Eliot Young, Southwest Research Institute, and R.J. Smith, Sommers-Bausch Observatory, Boulder, CO)
    FIGURE 1. A M37 star cluster image acquired using a Princeton Instruments KURO:1200B back-illuminated sCMOS camera.
    Detectors & Imaging

    CMOS Cameras: Back-illuminated sCMOS technology boosts low-light imaging and spectroscopy applications

    Ravi Guntupalli
    Back-illuminated sCMOS cameras provide the sensitivity and frame rates needed for applications with relatively short integration times, such as hyperspectral imaging, astronomy...
    Princeton Instruments introduces first back-illuminated scientific CMOS camera
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    Princeton Instruments introduces first back-illuminated scientific CMOS camera

    Back illumination boosts sensitivity while maintaining high frame rates.
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    Princeton Instruments spectroscopy system delivers aberration-free imaging

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    The FERGIE aberration-free spectroscopy system features a low-noise, cooled detector that permits high-sensitivity spectral capture from 190 nm to 1100 nm.
    (Courtesy of BaySpec)
    FIGURE 1. Confocal measurements of fossil feathers embedded in epoxy and amber show keratin, but no carotenoid (yellow) contributions in their Raman spectra.1 The measurements were done with a BaySpec Nomadic confocal microscope (bottom) at 1064 nm, one of the microscope's three Raman excitation wavelengths (the other two are 532 and 785 nm).
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    Photonics Products: Raman Spectrometers - Raman microscopes serve science and industry

    John Wallace
    When paired with a high-resolution microscope, Raman spectroscopy opens a world of knowledge for scientists, doctors, and industrial researchers.
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    Detectors & Imaging

    Princeton Instruments scientific cameras have use in low-light-level scientific applications

    LFW Staff
    The SOPHIA ultra-low-noise cameras for low-light-level scientific applications use the company’s ArcTec thermoelectric cooling technology to bring the back-illuminated CCD to
    FIGURE 1. A typical spectroscopy system consists of a light source, optical fiber, spectrograph, and a CCD detector.
    Spectroscopy

    Spectrometers: Spectroscopic calibration uses LEDs and nonlinear optimization

    Michael Case
    Accurate, repeatable wavelength and intensity information is possible for a spectrometer using an LED source and nonlinear optimization by taking into account variations in system...
    FIGURE 1. The shape of Horiba's iHR550 imaging spectrometer is dictated by its requirements.
    Bioimaging

    SPECTRAL IMAGING: Imaging spectrometers look at life in two ways

    John Wallace
    Spectral imaging is finding more and more applications in life sciences, from noninvasive disease diagnosis to food processing. Various imaging spectrometers make those applications...
    Image courtesy of Saulius Juodkazis, Swinburne University of Technology, Melbourne, Victoria, Australia
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    Princeton Instruments IsoPlane Spectrometer detects distortion-free extinction spectrum of nanoparticles

    John Wallace
    Princeton Instruments, which makes low-light imaging and spectroscopic instruments, has highlighted the recent work of Saulius Juodkazis, professor of nanophotonics at Swinburne...
    (Courtesy of Headwall Photonics)
    FIGURE 1. A hyperspectral image from Headwall Photonics' Micro-Hyperspec sensor was taken from a fixed-wing aircraft.
    Spectroscopy

    Photonics Products: Spectrometers: Imaging spectrometers examine the world around us

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    Imaging spectrometers capture enormous quantities of data in a 2D form that is relevant to areas from science and security to industry and art.
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    Spectroscopy

    IsoPlane and VHGs measure low-frequency Raman spectra

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    While the 802 cm-1 Raman shift band of cyclohexane measured with a traditional Czerny-Turner spectrograph has a peak width of 9.16 cm-1, the same peak measured with an IsoPlane...
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    EMCCD cameras from Princeton Instruments for scientific imaging and spectroscopy

    The ProEM+ series of professional-grade electron-multiplying CCD cameras for scientific imaging and spectroscopy applications is designed for very low-light applications.
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    Spectroscopy

    Princeton Instruments imaging spectrograph eliminates astigmatism

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    The IsoPlane imaging spectrograph features a new optical design that eliminates the primary aberrations present in traditional imaging spectrographs.
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    Raman spectrometers, such as the NanoRam handheld spectrometer, require little to no sample prep for applications like drug identification or antioxidant measurement in skin.
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    LOW-LIGHT IMAGING: Scientific InGaAs FPA cameras heighten sensitivity for NIR imaging

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    With their high quantum efficiency and sensitivity in the important near- and shortwave infrared range, deep-cooled, large-format InGaAs focal-plane-array cameras have many applications...
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    FIGURE. The Princeton Instruments SCT design eliminates field astigmatism, producing sharp point images across the field (top). A conventional Czerny-Turner design shows field varying astigmatism (bottom).
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    Princeton Instruments spectrograph has Schmidt corrector, eliminating field astigmatism

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    Trenton, NJ--Princeton Instruments has introduced a new toroidal-mirror-based imaging spectrograph that includes a Schmidt corrector in its optics, completely eliminating astigmatism...
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    NIR InGaAs camera from Princeton Instruments for SWIR imaging

    LFW Staff
    The PIoNIR:640 scientific-grade camera utilizes a 640 × 512 pixel indium gallium arsenide (InGaAs) focal-plane array with thermoelectric cooling down to -90°C.
    Buyer's Guide

    ProEM HS EMCCD Camera

    The thermoelectrically cooled ProEM-HS family of cameras incorporates back-illuminated electron- multiplying CCDs (EMCCDs) with proprietary eXcelon3 technology. These state-of...
    Buyer's Guide

    PIXIS eXcelon-enhanced deep-depletion CCD cameras

    Based on Princeton Instruments’ popular deep-cooled PIXIS platform, these new cameras utilize proprietary eXcelon back-illuminated and deep depletion sensor technology to provide...
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    High-res camera from Princeton Instruments includes sensor cooling

    LFW Staff
    The Megaplus ER11000 CCD camera has up to 96 megapixel resolution, based on a 36 × 24 mm, 11 megapixel sensor.
    FIGURE 1. Typical QE is compared for traditional front-illuminated CCDs, standard thinned back-illuminated CCDs, and back-illuminated deep-depletion CCDs (left); a similar comparison is done for eXcelon back-illuminated CCDs and standard back-illuminated CCDs (right).
    Detectors & Imaging

    LOW-LIGHT IMAGING: Novel back-illuminated CCD enhances low-light-level detection

    Ravi Guntupalli
    Conventional CCDs come in several forms, each with certain disadvantages for low-light imaging; a new take on back-illuminated technology resolves these issues while maintaining...
    FIGURE 1. Results produced with a low groove density grating (600g/mm blazed at 800 nm ) demonstrate the capability of the new calibration routine. The black line is the observed Ar/Ne emission line spectrum, while red overlaid curves are the result of a Lorentzian peak fit to selected lines in the spectrum. Located above and to the right of each red peak fit are the known and calculated wavelengths of the emission lines. The spectrum was taken on an Acton Series 500 mm spectrograph with a PIXIS 1340 x 400 pixel camera and 20 micron slit width.
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    SPECTROSCOPY: New calibration routine promises unprecedented accuracy

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    How accurate is your spectroscopy data? If only you really knew.