M. Kurakado scite author profile

One of the promising radiation detection devices for various practical applications is the series-connected superconducting tunnel junction (STJ) detector. In this article, interesting topics of the detectors are described since our previous work: e.g., more than two order higher detection efficiency compared with single STJ detectors, high count rate detection, and position resolution. Detectors were cooled to 0.35–0.4 K by means of a convenient He3 cryostat. The 5.9 and 6.5 keV x rays from Fe55 are separated by a detector specially designed for x-ray detection. The possible count rate of the series-junction detector estimated from the shaping-time constant applied in the measurements is high, e.g., over 104 counts per second. A series-junction detector equipped with a position sensing mechanism has shown a position resolution of about 35 μm in a sensing area with a radius of 1.1 mm. The position resolution of series junctions improves the energy resolution. A new type series-connected STJ detector is also proposed, i.e., the dispersed multitrap series-junction detector, for further improvement of detection efficiency and energy resolution.

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Quasiparticle excitation in a superconducting tunnel junction byαparticles

Kurakado

Mazaki

1980

Phys. Rev. B

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A proportional counter for resonance-electron Mössbauer spectroscopy at low temperatures down to 77.3 K

Isozumi

Kurakado

Katano

1983

Nuclear Instruments and Methods in Physics Research

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M. Kurakado

Possibility of high resolution detectors using superconducting tunnel junctions

Possibility of a high-resolution nuclear radiation detector using a superconductor

Further developments of series-connected superconducting tunnel junction to radiation detection

Quasiparticle excitation in a superconducting tunnel junction byαparticles

A proportional counter for resonance-electron Mössbauer spectroscopy at low temperatures down to 77.3 K

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