Radiant energy – Invisible radiant energy responsive electric signalling – Superconducting type
Patent
1989-05-04
1991-07-02
Hannaher, Constantine
Radiant energy
Invisible radiant energy responsive electric signalling
Superconducting type
505849, H01L 3900
Patent
active
050287869
ABSTRACT:
A cryogenic detector comprises an array formed from a plurality of spherical grains made of type I superconducting material arranged in a preselected pattern and each having a preselected size (generally less than about 100 microns in diameter). Also disclosed is a method of making such an array by depositing a film of selected thickness of type I superconducting material on a substrate, etching the film to provide an array formed by a plurality of discrete pixels, melting the pixels under conditions whereby the pixels are transformed into substantially spherical shape, and cooling to freeze the molten pixels into substantially spherical grains.
REFERENCES:
patent: 4135091 (1979-01-01), Lanza et al.
patent: 4484074 (1984-11-01), Eder
M. Le Gros, A. Da Silva, B. G. Turrell, A. Kotlicki and A. K. Drukier, "Planar Array of Superheated Superconductors: An Improved Superheated Superconducting Granule Detector", Applied Physics Letters, vol. 56, No. 22 (May 28, 1990), pp. 1-3.
B. Sadoulet, "Cryogenic Detection of Particles, Development Effort in the United States", and F. v. Feilitzsch, T. Hertrich, H. Kraus, L. Oberauer, Th. Peterreins, F. Probst and W. Seidel, Calorimetric Detectors at Low Temperatures, both in Low Temperature Detectors for Neutrinos and Dark Matter, Proceedings of a Workshop, Ringberg Castle, Tegernsee (May 12-13, 1987), K. Pretzl, N. Schmitz and L. Stodolsky, ed., ((Springer-Verlag, Berlin), pp. 86-93 and 94-112.
L. Gonzalez-Mestres and D. Perret-Gallix, "Neutrinos, Dark Matter and Low Temperature Detectors: Introduction; Basic Properties of Suerpheated Superconducting Granules Detectors", in Low Temperature Detectors for Neutrinos and Dark Matter II, Proceedings of the Second European Workshop on Low Temperature Devices for the Detection of Low Energy Neutrinos and Dark Matter, LAPP Annecy-Le-Vieux (Haute-Savoie) France, (May 2-6, 1988), L. Gonzalez-Mestres and D. Perret-Gallix, eds., pp. 2-36 and 297-320.
W. Seidel, L. Oberauer and F. v. Feilitzisch, "Feasibility of a Detector for Nuclear Radiation Based on Superconducting Grains", Review of Scientific Instruments, vol. 58, No. 8, (Aug. 1987), pp. 1471-1476; Copyright.COPYRGT. 1987 American Institute of Physics.
Da Silva Angela J.
Drukier Andrzej K.
Kotlicki Andrzej
Le Gros Mark A.
Turrell Brian G.
Hannaher Constantine
Rowley C. A.
The University of British Columbia
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