Conveners
Topic5-1
- Dohyun Kim (Brookhaven National Laboratory)
The RIKEN RI beam factory (RIBF) is promoting the future upgrade plan to increase the intensity of heavy-element beams, especially uranium beams which are particularly important in unstable nuclear physics research in the midst of global research competition. At the RIBF, the overall charge conversion efficiency of two strippers, He gas and rotating graphite sheet disk strippers, used for...
Construction of the COMET Experiment is underway at J-PARC. It aims to discover a phenomenon of muon to electron conversion, which can prove an existence of the new physics. To achieve and overcome the current experimental record, we will generate high-intensity muon beam by injecting J-PARC 8-GeV primary proton beam to the target. The beam power will be 3.2 kW at the first stage and will be...
The Second Target Station (STS) is currently in the preliminary design phase at the Oak Ridge National Laboratory (ORNL). STS will significantly expand the existing capabilities of the Spallation Neutron Source (SNS) at ORNL by constructing a new target station that utilizes the Proton Power Upgrade (PPU) enhanced SNS accelerator to make STS the world-leading peak brightness source for cold...
The Second Target Station (STS) is currently under preliminary design at Oak Ridge National Laboratory (ORNL). STS will significantly expand the existing capabilities of the Spallation Neutron Source (SNS) at ORNL by constructing a second target station that utilizes the existing SNS accelerator and provides a world leading source of cold (long wavelength) neutrons. The Target System design...
The Second Target Station will be a world-leading neutron facility with cold neutron brightness an order of magnitude better than the ORNL Spallation Neutron Source First Target Station. This facility aims to produce world-class brightness neutrons to advance fundamental science.
A rotating 1.2m diameter target disk of 59mm thick Tungsten water-cooled bricks has been selected for the...
