Title :
Status of the MARE Experiment
Author :
Gomes, M.R. ; Gatti, Flavio ; Nucciotti, A. ; Manfrinetti, P. ; Galeazzi, M. ; Alves, E. ; Bagliani, D. ; Barradas, N. ; Basak, S. ; Biasotti, M. ; Ferri, E. ; Kling, Andrea ; Pizzigoni, G. ; Prasai, K. ; Rocha, Juan
Author_Institution :
Centro de Fis. Nucl., Univ. de Lisboa, Lisbon, Portugal
Abstract :
The neutrino mass experiment MARE is presently focusing on the feasibility study of electron capture decaying isotope 163Ho, as an alternative approach to the well investigated 187Re beta decaying isotope. 163Ho, which undergoes a very low Q value decay with about 4500 years half life, gives the advantages of using very low mass metallic absorber transition edge sensor microcalorimeters and self energy calibrating spectral measurements. These features match very well with the basic technique of transition edge sensor microcalorimeter arrays that have in fact reached a maturity that allows envisaging a full-scale experiment. The preliminary results of radioactive 163Ho doped absorbers are presented and discussed in the framework of the MARE goal of achieving a sensitivity of 0.1-0.2 eV/c2 for the neutrino Mass.
Keywords :
neutrino mass; nuclear electron capture; nuclei with mass number 150 to 189; radioactive decay periods; 163Ho; 187Re; MARE experiment; electron capture; full-scale experiment; half life; neutrino mass experiment; self energy calibrating spectral measurements; transition edge sensor microcalorimeter arrays; very low mass metallic absorber transition edge sensor microcalorimeters; Educational institutions; Extraterrestrial measurements; Isotopes; Metals; Neutrino sources; Production; Sensitivity; Full absorption spectroscopy; neutrino mass; transition edge sensors;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2013.2249180
