HOLMES is an experiment to directly measure the neutrino mass with a calorimetric approach. The calorimetric technique eliminates several systematic uncertainties usually present in spectrometers where the external source and decays to excited states affect the measurement. 163 Ho is chosen as source for its very low Q value (2.8 keV), the proximity of the end-point to resonance M1 and its half life (4570 year). These features are optimal to reach simultaneously a reasonable activity to have sufficient statistics in the end-point and a small quantity of 163 Ho embedded in the detector not to alter significantly its heat capacity. 163 Ho will be produced via neutron irradiation of enriched 162 Er 2 O 3 at the Institute Laue–Langevin (Grenoble, France), and chemically separated at Paul Scherrer Institut (Villigen, Switzerland). It will arrive at INFN laboratory of Genova in oxide form (Ho 2 O 3 ) with traces of others Ho isotopes and contaminants not removable using chemical methods. In particular, the metastable 166 m Ho undergoes beta decay with a half life of about 1200 year, if present 166 m Ho induces background below 5 keV. The removal of these contaminants is critical for HOLMES so a dedicated system is being set up. The system is designed to achieve an optimal mass separation for 163 Ho and consists of two main components: an evaporation chamber and an ion implanter. In the evaporation chamber, holmium will be reduced in metallic form, using the reaction 2Y+Ho 2 O 3 → Y 2 O 3 +2Ho and used to produce a metallic target for the ion implanter source. The ion implanter consists of five main components: a Penning sputter ion source, an acceleration section, a magnetic/electrostatic mass analyser, a magnetic scanning stage and a focusing electrostatic triplet. In this contribution, we describe the procedures, under continuous refinement, for the holmium evaporation process, the ion-implanted metallic target production and the status of the ion implanter.
Gallucci, G., Biasotti, M., Ceriale, V., De Gerone, M., Faverzani, M., Ferri, E., et al. (2019). 163 Ho Distillation and Implantation for HOLMES Experiment. JOURNAL OF LOW TEMPERATURE PHYSICS, 194(5-6), 453-459 [10.1007/s10909-018-2086-x].
|Citazione:||Gallucci, G., Biasotti, M., Ceriale, V., De Gerone, M., Faverzani, M., Ferri, E., et al. (2019). 163 Ho Distillation and Implantation for HOLMES Experiment. JOURNAL OF LOW TEMPERATURE PHYSICS, 194(5-6), 453-459 [10.1007/s10909-018-2086-x].|
|Tipo:||Articolo in rivista - Articolo scientifico|
|Carattere della pubblicazione:||Scientifica|
|Presenza di un coautore afferente ad Istituzioni straniere:||No|
|Titolo:||163 Ho Distillation and Implantation for HOLMES Experiment|
|Autori:||Gallucci, G; Biasotti, M; Ceriale, V; De Gerone, M; Faverzani, M; Ferri, E; Gatti, F; Giachero, A; Manfrinetti, P; Nucciotti, A; Orlando, A; Provino, A; Puiu, A|
|Data di pubblicazione:||2019|
|Rivista:||JOURNAL OF LOW TEMPERATURE PHYSICS|
|Digital Object Identifier (DOI):||http://dx.doi.org/10.1007/s10909-018-2086-x|
|Appare nelle tipologie:||01 - Articolo su rivista|