Conveners
WG6/WG7 joint session (spin+future exp.)
- Elke-Caroline Aschenauer (BNL)
- Silvia Pisano (Laboratori Nazionali di Frascati - INFN)
- Emanuele Roberto Nocera (Rudolf Peierls Centre for Theoretical Physics University of Oxford)
- Claire Gwenlan (Oxford)
- Salvatore Fazio (Brookhaven National Laboratory)
- Wally Melnitchouk (Jefferson Lab)
- Erin Seder (CEA Saclay DSM/IRFU/SPhN/LSN)
Jean-Philippe Lansberg
(IPN Orsay - Paris Sud U. - CNRS/IN2P3)
13/04/2016, 14:30
Future Experiments
We report on the opportunities for spin physics and Transverse-Momentum Dependent distribution (TMD) studies at a future multi-purpose fixed-target experiment using the proton LHC beams extracted by a bent crystal or using an internal gas target. The LHC multi-TeV beams allow for the most energetic fixed-target experiments ever performed, opening new domains of particle and nuclear physics and...
Dr
Elke-Caroline Aschenauer
(BNL)
13/04/2016, 14:53
Future Experiments
The exploration of the fundamental structure of strongly interacting matter has always thrived on the complementarity of lepton scattering and purely hadronic probes. As the community eagerly anticipates a future electron ion collider (EIC) in the U.S., an outstanding scientific opportunity remains to complete "must-do" measurements in p+p and p+A physics at RHIC in the years preceding the...
Rolf Ent
(Jefferson Lab)
13/04/2016, 15:16
Future Experiments
This talk will concentrate on the plans towards equipment and science utilizing the 12-GeV Upgrade at Jefferson Lab beyond the first three years of planned operations. Experiments are geared towards precision spatial and momentum imaging of hadrons utilizing specialized detector and/or target systems. For example, the Neutral-Particle Spectrometer in Hall C is presently under construction, and...
Dr
Tianbo Liu
(Duke University and DKU)
13/04/2016, 15:39
Spin Physics
(for the SoLID Collaboration)
The Solenoidal Large Intensity Device (SoLID) has been proposed in Hall A at Jefferson Lab, which will fully utilize the great physics potential of the 12-GeV energy upgrade by combining high luminosities and large acceptance. Three of five highly-rated approved experiments are the semi-inclusive deep inelastic scatterings (SIDIS) of 11 GeV and 8.8 GeV electron...
