A high intensity He-6 beam for the beta-beam neutrino oscillation facility
Autor
Rok
2012
Časopis
Europhysics Letters
Web
Obsah
This work presents the production and extraction of the short-lived radionuclide He-6 in yet unmatched yields from the ISOLDE facility at CERN. It is the first report of He-6 production using spallation neutrons via the Be-9(n, alpha) He-6 reaction. These neutrons are produced from the 1.4GeV proton beam of the Proton Synchrotron Booster (PSB) striking a tungsten converter, and are impinging on a porous BeO material. The central position of He-6 in future experiments is due to its role as a necessary radioactive nucleus to realize the beta-beam at CERN, a next-generation facility to study neutrino oscillation parameters, and hence neutrino masses. In the beta-beam scenario, an intense beam of radioactive He-6 nuclei will be produced, accelerated to multi-GeV energies and stored in a dedicated storage ring. The resulting virtually mono-directional anti-neutrino beam from the decay of the stored He-6 nuclei will be directed towards a remote underground neutrino detector. A similar beam of, e. g., Ne-18 will provide neutrinos, an ideal concept to test CP violation in the neutrino sector. The results of the present experiment demonstrate for the first time that the necessary conditions for the realization of the proposed beta-beam scheme with anti-neutrinos can be fulfilled.
Příklad citace článku:
T. Stora, R. Hodák, . et al. , "A high intensity He-6 beam for the beta-beam neutrino oscillation facility", Europhysics Letters (2012)