Conveners
WG3: Accelerator physics: Current Beamlines and Their Upgrades
- Alan Bross (Fermilab)
WG3: Accelerator physics: Target and Beam Window
- Tetsuro Sekiguchi (KEK)
WG3: Accelerator physics: Neutrino Factories
- Alex Bogacz
WG3: Accelerator physics: Future Machines
- Jingyu Tang (Institute of High Energy Physics, CAS)
WG3: Accelerator physics: EuroNuNet/COST
- Tord Ekelöf (Uppsala University)
WG3: Accelerator physics: MICE
- Ben Freemire (Northern Illinois University)
Prof.
Tetsuro Sekiguchi
(KEK)
25/09/2017, 14:30
Kevin Lynch
(York College, CUNY)
25/09/2017, 15:00
Yongjoon Lee
(ESS)
26/09/2017, 11:30
Fabio Pupilli
(INFN, Padova)
26/09/2017, 14:00
Working Group 3: Accelerator Physics
talk
The precision era of neutrino physics requires measurements of absolute neutrino cross sections at the GeV scale with exquisite (1%) precision. These measurements are presently limited by the uncertainties on neutrino flux: the goal of the ERC ENUBET Project is to demonstrate that such uncertainties can be removed employing novel monitoring techniques of the leptons at the neutrino source. In...
Guang Zhao
(IHEP)
26/09/2017, 14:30
Working Group 3: Accelerator Physics
talk
MuSR is a useful tool which use muons as magnetic probes in matter. There are several
MuSR running around world. Now a R&D program named EMuS had been approved to
setup a new MuSR in China.
The EMuS will be located in CSNS, Dongguan. Use 4KW/20KW 1.6GeV proton beam
from CSNS hit target to generate surface muons and pions, then secondary particels will
be collected and transfered. Besides...
Dr
Ben Freemire
(Northern Illinois University)
26/09/2017, 15:00
Dr
Nikolaos Vassilopoulos
(IHEP, CAS)
27/09/2017, 11:30
Working Group 3: Accelerator Physics
talk
The muon decay medium-baseline facility (MOMENT) is a high intensity neutrino beam proposed in China, aiming to measure leptonic CP violation. The primary proton beam has 15 MW of power provided from an ADS type of linac, which poses a radiation challenge to a capture system that consists of an adiabatic superconductive solenoid from 14 T to 3 T, and a high power liquid or fluidized target...
Dr
Jaroslaw Pasternak
(Imperial College London/ISIS-RAL-STFC)
27/09/2017, 12:00
Working Group 3: Accelerator Physics
talk
The neu¬trino beam originating from muons de¬cay¬ing in a stor¬age ring is an ideal tool for pre-cise neu¬trino cross sec¬tion mea¬sure¬ments due to its exactly known flavour con¬tent, including both muon and electron ones, and spec¬trum. The proposed nuS¬TORM fa¬cil¬ity would use pions di¬rectly in¬jected into a race¬track stor¬age ring, where cir¬cu¬lat¬ing muon beam would be formed. The...
Dr
elena wildner
(cern)
28/09/2017, 15:00
Working Group 3: Accelerator Physics
talk
The 2.0 GeV, 5 MW proton linac for the European Spallation Source, ESS, would have the capacity to send extra pulses to a neutrino target, giving an excellent opportunity to produce a high performance neutrino beam, the ESS neutrino Super Beam (ESSnuSB). The neutrino target focusing system needs pulses shorter than a few micro-seconds. These short pulses will be formed in an accumulation ring,...
Eric Baussan
(IPHC, Université de Strasbourg, CNRS/IN2P3)
28/09/2017, 15:30
Dr
Jaroslaw Pasternak
(Imperial College London/ISIS-RAL-STFC)
29/09/2017, 11:00
John Nugent
(University of Glasgow)
29/09/2017, 11:22
Christopher Hunt
(Imperial College London)
29/09/2017, 11:45
François Drielsma
(University of Geneva)
29/09/2017, 12:07
