Wolfgang Suske scite author profile

Wolfgang Suske

5Publications

39Citation Statements Received

30Citation Statements Given

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Teledyne e2v (United Kingdom)

Publications

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The Euclid VIS CCD detector design, development, and programme status

Short

Barry

Boudin

et al. 2014

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The focal plane array of the Euclid VIS instrument comprises 36 large area, back-illuminated, red-enhanced CCD detectors (designated CCD 273). These CCDs were specified by the Euclid VIS instrument team in close collaboration with ESA and e2v technologies. Prototypes were fabricated and tested through an ESA pre-development activity and the contract to qualify and manufacture flight CCDs is now underway. This paper describes the CCD requirements, the design (and design drivers) for the CCD and package, the current status of the CCD production programme and a summary of key performance measurements.

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OCam with CCD220, the Fastest and Most Sensitive Camera to Date for AO Wavefront Sensing

Feautrier¹,

Gach²,

Balard³

et al. 2011

Publications of the Astronomical Society of the Pacific

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International audienceFor the first time, subelectron readout noise has been achieved with a camera dedicated to astronomical wavefront-sensing applications. The OCam system demonstrated this performance at a 1300 Hz frame rate and with 240 x 240 pixel frame size. ESO and JRA2 OPTICON jointly funded e2v Technologies to develop a custom CCD for adaptive optics (AO) wavefront-sensing applications. The device, called CCD220, is a compact Peltier-cooled 240 x 240 pixel frame-transfer eight-output back-illuminated sensor using the EMCCD technology. This article demonstrates, for the first time, subelectron readout noise at frame rates from 25 Hz to 1300 Hz and dark current lower than 0.01 e(-) pixel(-1) frame(-1). It reports on the quantitative performance characterization of OCam and the CCD220, including readout noise, dark current, multiplication gain, quantum efficiency, and charge transfer efficiency. OCam includes a low-noise preamplifier stage, a digital board to generate the clocks, and a microcontroller. The data acquisition system includes a user-friendly timer file editor to generate any type of clocking scheme. A second version of OCam, called OCam(2), has been designed to offer enhanced performance, a completely sealed camera package, and an additional Peltier stage to facilitate operation on a telescope or environmentally challenging applications. New features of OCam(2) are presented in this article. This instrumental development will strongly impact the performance of the most advanced AO systems to come

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A Dedicated L3Vision CCD for Adaptive Optics Applications

Downing

Hubin²,

Kasper³

et al.

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Custom CCD for adaptive optics applications

Downing

Arsenault

Baade

et al. 2006

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ESO and JRA2 OPTICON have funded e2v technologies to develop a compact packaged Peltier cooled 24 µm square 240x240 pixels split frame transfer 8-output back-illuminated L3Vision CCD3, L3Vision CCD for Adaptive Optic Wave Front Sensor (AO WFS) applications. The device is designed to achieve sub-electron read noise at frame rates from 25 Hz to 1,500 Hz and dark current lower than 0.01 e-/pixel/frame. The development has many unique features. To obtain high frame rates, multi-output EMCCD gain registers and metal buttressing of row clock lines are used. The baseline device is built in standard silicon. In addition, a split wafer run has enabled two speculative variants to be built; deep depletion silicon devices to improve red response and devices with an electronic shutter to extend use to Rayleigh and Pulsed Laser Guide Star applications. These are all firsts for L3Vision CCDs. The designs of the CCD and Peltier package have passed their reviews and fabrication has begun. This paper will describe the progress to date, the requirements and the design of the CCD and compact Peltier package, technology trade-offs, schedule and proposed test plan. High readout speed, low noise and compactness (requirement to fit in confined spaces) provide special challenges to ESO's AO variant of its NGC, New General detector Controller to drive this CCD. This paper will describe progress made on the design of the controller to meet these special needs.

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Thermal modeling of cooled instrument: from the WIRCam IR camera to CCD Peltier cooled compact packages

Feautrier¹,

Stadler²,

Downing

et al. 2006

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Wolfgang Suske

The Euclid VIS CCD detector design, development, and programme status

OCam with CCD220, the Fastest and Most Sensitive Camera to Date for AO Wavefront Sensing

A Dedicated L3Vision CCD for Adaptive Optics Applications

Custom CCD for adaptive optics applications

Thermal modeling of cooled instrument: from the WIRCam IR camera to CCD Peltier cooled compact packages

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