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Microwave kinetic inductance detectors
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Superconducting detectors offer high-speed astronomy

In astronomy, every photon counts. So astronomers build ever-bigger telescope mirrors to catch light, but they also pay close attention to how reliably the cameras at the back of the telescopes record each photon.
Ben Mazin, an astronomer at the University of California, Santa Barbara, believes that he is on the cusp of a camera breakthrough: his lab is working on a superconducting detector that could eventually replace the charge-coupled devices (CCDs) that have become de rigueur in both consumer and astronomical digital cameras.

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ARCONS
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Title: ARCONS: A highly multiplexed superconducting optical to near-IR camera
Authors: Benjamin A. Mazin, Kieran O'Brien, Sean McHugh, Bruce Bumble, David Moore, Sunil Golwala, Jonas Zmuidzinas

We report on the development of ARCONS, the ARray Camera for Optical to Near-IR Spectrophotometry. This photon counting integral field unit (IFU), being built at UCSB and Caltech with detectors fabricated at JPL, will use a unique, highly multiplexed low temperature detector technology known as Microwave Kinetic Inductance Detectors (MKIDs). These detectors, which operate at 100 mK, should provide photon counting with energy resolution of R = E/{\delta}E > 20 and time resolution of a microsecond, with a quantum efficiency of around 50%. We expect to field the instrument at the Palomar 200" telescope in the first quarter of 2011 with an array containing 1024 pixels in a 32x32 pixel form factor to yield a field of view of approximately 10x10 arcseconds. The bandwidth of the camera is limited by the rising sky count rate at longer wavelengths, but we anticipate a bandwidth of 0.35 to 1.35 {\mu}m will be achievable. A simple optical path and compact dewar utilising a cryogen-free adiabatic demagnetisation refridgerator (ADR) allows the camera to be deployed quickly at Naysmith or Coude foci at a variety of telescopes. A highly expandable software defined radio (SDR) readout that can scale up to much larger arrays has been developed.

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