Abstract
We have developed a high-resolution detection technique for measuring the energy and activity of alpha decay events using low-temperature detectors. A small amount of source material containing alpha-emitting radionuclides was enclosed in a 4π metal absorber. The energy of the alpha particles as well as that of the recoiled nuclides, low-energy electrons, and low-energy x-rays and γ-rays was converted into thermal energy of the gold absorber. A metallic magnetic calorimeter serving as a fast and sensitive thermometer was thermally attached to the metal absorber. In the present report, experimental demonstrations of Q spectroscopy were made with a new meander-type magnetic calorimeter. The thermal connection between the temperature sensor and the absorber was established with annealed gold wires. Each alpha decay event in the absorber resulted in a temperature increase of the absorber and the temperature sensor. Using the spectrum measured for a drop of 226Ra solution in a 4π gold absorber, all of the alpha emitters in the sample were identified with a demonstration of good detector linearity. The resolution of the 226Ra spectrum showed a 3.3keV FWHM at its Q value together with an expected gamma escape peak at the energy shifted by its γ-ray energy.
Original language | English |
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Pages (from-to) | 2255-2259 |
Number of pages | 5 |
Journal | Applied Radiation and Isotopes |
Volume | 70 |
Issue number | 9 |
DOIs | |
State | Published - Sep 2012 |
Keywords
- Alpha spectroscopy
- Cryogenic detector
- High energy resolution
- Metallic magnetic calorimeter
- Q spectrometer