Add to ORKGHigh Power Target systems are key elements in future neutrino and other rare particle production in accelerators. These systems transform an intense source of protons into secondary particles of interest to enable new scientific discoveries. As beam intensity and energies increase, target systems face significant challenges. Radiation damages and thermal shocks in target materials were identified as the leading cross-cutting challenges of high-power target facilities. Target material R&D to address these challenges are essential to enable and ensure reliable operation of future-generation accelerators. Irradiation facilities and alternative methods are critical to provide a full support of material R&D and better address these critical chal...
EURISOL foil-targets have to withstand a primary proton beam of 1 GeV kinetic energy and up to 100 μ...
A central component of the European Spallation Source is the high-power proton accelerator. The acce...
A significant worldwide R&D effort is presently directed toward solving the technical challenges...
International audienceHigh Power Target systems are key elements in future neutrino and other rare p...
The Target System of the Neutrino Factory is considerably more than the target for the primary proto...
A discussion of design issues for future conventional neutrino beam-lines with proton beam power abo...
Astrophysical neutrinos are excellent probes of astroparticle physics and high-energy physics. With ...
The RaDIATE collaboration (Radiation Damage In Accelerator Target Environments), founded in 2012, ha...
High-power targets are a major issue for both neutron sources and neutrino factories. This paper rev...
The advance in neutrino oscillation physics is driven by the availability of well characterized and ...
The RaDIATE collaboration (Radiation Damage In Accelerator Target Environments), founded in 2012, ha...
Accelerator Driven Systems in nuclear technology will handle very high power of ionizing and non-ion...
There are three types of future neutrino facilities currently under study, one based on decays of st...
Particle accelerators have enabled forefront research in high energy physics and other research area...
Electron Ion Collider (EIC) is a particle accelerator facility planned for construction at Brookhave...
EURISOL foil-targets have to withstand a primary proton beam of 1 GeV kinetic energy and up to 100 μ...
A central component of the European Spallation Source is the high-power proton accelerator. The acce...
A significant worldwide R&D effort is presently directed toward solving the technical challenges...
International audienceHigh Power Target systems are key elements in future neutrino and other rare p...
The Target System of the Neutrino Factory is considerably more than the target for the primary proto...
A discussion of design issues for future conventional neutrino beam-lines with proton beam power abo...
Astrophysical neutrinos are excellent probes of astroparticle physics and high-energy physics. With ...
The RaDIATE collaboration (Radiation Damage In Accelerator Target Environments), founded in 2012, ha...
High-power targets are a major issue for both neutron sources and neutrino factories. This paper rev...
The advance in neutrino oscillation physics is driven by the availability of well characterized and ...
The RaDIATE collaboration (Radiation Damage In Accelerator Target Environments), founded in 2012, ha...
Accelerator Driven Systems in nuclear technology will handle very high power of ionizing and non-ion...
There are three types of future neutrino facilities currently under study, one based on decays of st...
Particle accelerators have enabled forefront research in high energy physics and other research area...
Electron Ion Collider (EIC) is a particle accelerator facility planned for construction at Brookhave...
EURISOL foil-targets have to withstand a primary proton beam of 1 GeV kinetic energy and up to 100 μ...
A central component of the European Spallation Source is the high-power proton accelerator. The acce...
A significant worldwide R&D effort is presently directed toward solving the technical challenges...