Add to ORKGENUBET has been conceived to monitor positrons from Ke3 decays in conventional neutrino beam decay tunnels in order to provide a direct determination of the νe flux at the source, paving the way to a measurement of electron neutrino cross section with 1% precision. Since 2016 remarkable results on the prototyping and testing of the tunnel instrumentation for positron tagging have been achieved, as well as on the design and simulation of the proton extraction scheme, the focusing system and the meson transfer line. In particular the demonstration of the viability of a static focusing extend the potential of monitored neutrino beams beyond the original aim of ENUBET: the flux measurement at the 1% level also for νμ produced in the beam. Parti...
The knowledge of the initial flux in conventional neutrino beams represents the main limitation for ...
The knowledge of initial flux, energy and flavour of current neutrino beams is currently the main li...
International audienceThe ENUBET project aims at demonstrating that the systematics in neutrino flux...
ENUBET has been conceived to monitor positrons from Ke3 decays in conventional neutrino beam decay t...
The knowledge of initial flux, energy and flavor of neutrino beams is currently the main limitation ...
The knowledge of the initial flux, energy and flavor of current neutrino beams is the main limitatio...
The knowledge of initial flux, energy and flavor of neutrino beams is currently the main limitation ...
The knowledge of the initial flux in conventional neutrino beams represents the main limitation for ...
The knowledge of initial flux, energy and flavour of current neutrino beams is currently the main li...
International audienceThe ENUBET project aims at demonstrating that the systematics in neutrino flux...
ENUBET has been conceived to monitor positrons from Ke3 decays in conventional neutrino beam decay t...
The knowledge of initial flux, energy and flavor of neutrino beams is currently the main limitation ...
The knowledge of the initial flux, energy and flavor of current neutrino beams is the main limitatio...
The knowledge of initial flux, energy and flavor of neutrino beams is currently the main limitation ...
The knowledge of the initial flux in conventional neutrino beams represents the main limitation for ...
The knowledge of initial flux, energy and flavour of current neutrino beams is currently the main li...
International audienceThe ENUBET project aims at demonstrating that the systematics in neutrino flux...