Thomas Peitzmann
(University of Utrecht (NL))
27/03/2012, 09:25
Future of DIS
Renaud Le Gac
(Universite d'Aix - Marseille II (FR))
27/03/2012, 09:50
Future of DIS
The LHCb experiment is designed to perform high-precision measurements of CP violation and search for New Physics using the enormous flux of beauty and charmed hadrons produced at the LHC. The operation and the results obtained from the data collected in 2010 and 2011 demonstrate that the detector is robust and functioning very well. However, the limit of 1 fb$^{-1}$ of data per year cannot be...
Dr
Markus Diefenthaler
(University of Illinois at Urbana-Champaign)
27/03/2012, 11:50
Future of DIS
The E-906/SeaQuest experiment at Fermilab will continue a series of Drell-Yan measurements to explore the antiquark structure of the nucleon and nuclei. To extend existing measurements to larger values of Bjorken-x, a 120 GeV proton beam extracted from Fermilab's main injector is used, resulting in a factor of 50 more luminosity than previous experiments and enabling access to values of x up...
Dr
Gerhard Mallot
(CERN)
27/03/2012, 12:15
Future of DIS
COMPASS at CERN is preparing for a new series of measurements on the nucleon structure comprising deep virtual Compton scattering and hard exclusive meson production using muon beams, as well as Drell-Yan reactions using a polarised proton target and a negative pion beam. The former will mainly constrain the generalized parton distribution H and determine the transverse size of the nucleon,...
Benedikt Zihlmann
(J)
27/03/2012, 16:30
Keith Griffioen
(C)
27/03/2012, 16:55
Future of DIS
With the doubling of the Jefferson Lab beam energy and the complete rebuilding of the CLAS spectrometer underway, a full experimental program is already approved for Hall B. The components of this program relevant to deep-inelastic scattering will be discussed.
Mr
Kalyan Allada
(Jefferson Lab)
27/03/2012, 17:20
Future of DIS
One of the cleanest ways to access the Transverse Momentum Dependent (TMD) parton distribution functions of the nucleon is to measure single (SSA) and double spin asymmetries (DSA) in semi-inclusive DIS reactions using polarized nucleon targets. The Jefferson Lab 12 GeV upgrade will provide a unique opportunity to perform such precision measurements and to map these multi-dimensional PDFs. In...
Dr
Kieran Boyle
(RIKEN BNL Research Center)
28/03/2012, 08:30
Future of DIS
During 12 years of operations, PHENIX has measured the gluon helicity structure of the proton, probed the proton transverse spin structure, studied effects in cold nuclear matter, discovered a strongly coupled QGP and has studied many of its basic properties. In parallel with ongoing luminosity upgrades at RHIC, PHENIX is in the process of planning and commissioning a series of upgrades in...
Vadim Ptitsyn
(B)
28/03/2012, 09:20
Future of DIS
The accelerator design of future high-energy high-luminosity electron-hadron collider at RHIC called eRHIC is presented. We plan adding energy recovery linacs to accelerate the electron beam to 20 (potentially 30) GeV and to collide the electrons with hadrons in RHIC. The center-of-mass energy of eRHIC will range from 30 to 200 GeV. The luminosity exceeding 10^34 cm^-2 s^-1 can be achieved in...
Cynthia Keppel
(Hampton University)
28/03/2012, 10:30
Dr
Matthew Lamont
(BNL)
28/03/2012, 10:55
Future of DIS
The STAR experiment is one of the flagship experiments at the Relativistic Heavy-Ion
Collider at Brookhaven Lab. Since starting to take data at the turn of the century, STARโs
large acceptance and measurement capabilities have proved to be vital in terms of
characterising the QGP soup produced in heavy-ion collisions and heading towards a
measurement of the proton spin in polarised p+p...
Klaus Dehmelt
(Stony Brook University USA)
28/03/2012, 14:40
Future of DIS
eRHIC is a proposed high luminosity, polarized Electron Ion Collider (EIC), which would make use of the existing RHIC infrastructure. eRHIC is a triple IP collider, with the possibility of using the two existing, but upgraded IP detectors and a dedicated eRHIC detector.
A detector has to be designed that can make use of present knowledge and experience gained from the HERA detectors, but has...
Alexander Bazilevsky
(B)
28/03/2012, 15:05
Future of DIS
Addition of a high intensity polarized electron beam facility which could realize Deep Inelastic Scattering (DIS) research with one of the RHIC beams is one of the future upgrades to the Relativistic Heavy Ion Collider (RHIC) presently under consideration. To take a full advantage of such machine evolution, after more than a decade of exciting physics results, both with heavy ion and polarized...
Carlos Albert Salgado Lopez
(Universidade de Santiago de Compostela (ES))
29/03/2012, 09:00
Future of DIS
none
Nestor Armesto Perez
(Universidade de Santiago de Compostela (ES))
29/03/2012, 09:35
