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PI's line of EMCCD cameras. Available with 512x512 and 1024x1024 back illuminated, frame transfer EMCCDs for single photon sensitivity utilizes proprietary Princeton Instruments eXcelon™ technology, which greatly reduces the interference fringes (i.e., etaloning effect) that have made back-thinned EMCCDs unusable in the NIR until now. |
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Deep Cooled CCD camera platform with formats from 512x512 to 2048x2048. Front, back and back illuminated deep depletion technologies, and cooling up to -90C. Permanent vacuum guarantee. NEW: Exclusive 1340x1300 series high sensitive large format cameras. |
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The PI-MAX3 is the next generation, fully-integrated scientifc ICCD system. The intensifers offer the highest possible sensitivity from UV to NIR and offer resolution that is ideally matched to the CCD. Nanosecond gating capability and an integrated programmable timing generator built into the camera make these ICCD cameras ideal for time-resolved imaging applications. PI-MAX3 offers both high frame rate at 32MHz/16-bit digitization, 1 MHz sustained gating repetition rate and exceptional sensitivity. |
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Princeton Instruments PioNIR is proud to introduce world’s first deep cooled, scientific grade InGaAs focal plane array camera. The camera is specifically designed to give the highest sensitivity for low light near infrared (NIR) imaging and spectroscopy applications. The camera is thermometrically cooled up to -90C (Air or Liquid assisted) for maintenance free operation. The PIoNIR InGaAs camera is set to become a valuable tool for challenging new applications ranging from nanotechnology to solar research. |
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New, breakthrough CCD and EMCCD technology increases QE, reduces etaloning and lowers dark current of select Princeton Instruments cameras.New eXcelon technology Until recently, researchers whose applications require low-light broadband photon detection had to choose between cameras that utilize either standard thinned backilluminated or standard back-illuminated deep-depletion technologies. Although both of these options are capable of delivering extremely high sensitivity, their performance is nonetheless compromised to a certain extent by the limitations described in the preceding section. |
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