Title :
S-Cam: A cryogenic camera for optical astronomy based on superconducting tunnel junctions
Author :
Rando, N. ; Andersson, S. ; Collaudin, B. ; Favata, F. ; Gondoin, P. ; Peacock, A. ; Perryman, M. ; Verveer, J. ; Verhoeve, P. ; Goldie, D.J.
Author_Institution :
Dept. of Space Sci., Eur. Space Res. & Technol. Centre, Noordwijk, Netherlands
fDate :
6/1/2000 12:00:00 AM
Abstract :
S-Cam is a cryogenic camera for ground-based astronomy using superconducting tunnel junctions (STJ´s). It has been designed as a technology demonstrator, aiming to prove the potential of a new generation of single photon-counting detectors at a ground-based telescope. The camera is based on a 6/spl times/6 array of Ta-Al Josephson junctions, operating at about 350 mK and individually read out. For each detected photon, the absorption position, the arrival time, and the corresponding energy are measured. In this paper, we provide an overview of the cryogenic detector performance, a description of the S-Cam system, and a summary of the results obtained both during testing at ESTEC and during actual observations at the William Herschel Telescope (WHT) in La Palma, Spain. Initial astronomical observations were performed on the Crab pulsar, a neutron star spinning with a period of 33 msec at about 6000 light years from Earth.
Keywords :
Josephson effect; aluminium; astronomical instruments; astronomical telescopes; cryogenics; photon counting; spectrophotometry; superconducting junction devices; tantalum; 350 mK; Crab pulsar; ESTEC; Josephson junctions; S-Cam; Ta-Al; William Herschel Telescope; absorption position; arrival time; cryogenic camera; cryogenic detector performance; optical astronomy; single photon-counting detectors; superconducting tunnel junctions; Absorption; Astronomy; Cameras; Cryogenics; Detectors; Josephson junctions; Optical design; Photonics; Space technology; Telescopes;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
