Add to ORKGAn overview of the exploitation of accelerator neutrino beam facilities is presented. Emphasis is given on the elements of the secondary beam, i.e. the target and the equipment downstream of it. Using the examples of K2K, MiniBooNE, NuMI and CNGS, a number of lessons learnt in operating these neutrino beams are outlined. The T2K facility, presently under construction, is included in this overview
The Neutrino Factory, which produces an extremely intense source of flavor-tagged neutrinos from muo...
The discovery of neutrino oscillations marks a major milestone in the history of neutrino physics, a...
Starting from the experimental opportunities at a neutrino factory, possibilities at other facilitie...
In this paper we briefly review the concepts of Neutrino Factories and Beta Beam facilities, and ind...
The design principles of accelerator-based neutrino beams are outlined and the beams currently in op...
Two accelerator options for producing intense neutrino beams a Neutrino Factory based on stored muon...
This paper describes the hardware and operations of the Neutrinos at the Main Injector (NuMI) beam a...
In this paper we briefly review the concepts of Neutrino Factories and Beta Beam facilities, and ind...
This report describes the goals of the next generations of accelerator-based neutrino experiments, a...
International audienceThis paper describes the hardware and operations of the Neutrinos at the Main ...
The design principles of accelerator-based neutrino beams are outlined and the beams currently in op...
Fermilab produces intense beams of high-energy neutrinos, particles that may hold the key to underst...
The purpose of this paper is to provoke a discussion about the right next step in accelerator-based ...
We outline a strategy for next-generation neutrino physics experiments based on beams from accelerat...
TM-1946 summarizes the status of the NuMI project. This note presents more details on the technical ...
The Neutrino Factory, which produces an extremely intense source of flavor-tagged neutrinos from muo...
The discovery of neutrino oscillations marks a major milestone in the history of neutrino physics, a...
Starting from the experimental opportunities at a neutrino factory, possibilities at other facilitie...
In this paper we briefly review the concepts of Neutrino Factories and Beta Beam facilities, and ind...
The design principles of accelerator-based neutrino beams are outlined and the beams currently in op...
Two accelerator options for producing intense neutrino beams a Neutrino Factory based on stored muon...
This paper describes the hardware and operations of the Neutrinos at the Main Injector (NuMI) beam a...
In this paper we briefly review the concepts of Neutrino Factories and Beta Beam facilities, and ind...
This report describes the goals of the next generations of accelerator-based neutrino experiments, a...
International audienceThis paper describes the hardware and operations of the Neutrinos at the Main ...
The design principles of accelerator-based neutrino beams are outlined and the beams currently in op...
Fermilab produces intense beams of high-energy neutrinos, particles that may hold the key to underst...
The purpose of this paper is to provoke a discussion about the right next step in accelerator-based ...
We outline a strategy for next-generation neutrino physics experiments based on beams from accelerat...
TM-1946 summarizes the status of the NuMI project. This note presents more details on the technical ...
The Neutrino Factory, which produces an extremely intense source of flavor-tagged neutrinos from muo...
The discovery of neutrino oscillations marks a major milestone in the history of neutrino physics, a...
Starting from the experimental opportunities at a neutrino factory, possibilities at other facilitie...