Conveners
Future Facilities and Experiments
- Yordanka Ilieva (University of South Carolina)
- Yulia Furletova (Jefferson Lab)
Future Facilities and Experiments
- Yulia Furletova (Jefferson Lab)
- Yordanka Ilieva (University of South Carolina)
Future Facilities and Experiments
- Yordanka Ilieva (University of South Carolina)
- Yulia Furletova (Jefferson Lab)
Future Facilities and Experiments
- Yulia Furletova (Jefferson Lab)
- Yordanka Ilieva (University of South Carolina)
Rik Yoshida
(Jefferson Lab)
12/09/2018, 14:30
Future Facilities and Experiments
Parallel Sessions
I will discuss the opportunities for spin physics to be studied at the future electron-ion collider in the US.
Dr
Christoph Montag
(Brookhaven National Laboratory)
12/09/2018, 14:50
Future Facilities and Experiments
Parallel Sessions
The electron-ion collider eRHIC aims at a luminosity around 10^34 cm^-2 sec^-1. The design is based on the existing Relativistic Heavy Ion Collider (RHIC) facility, which has successfully accelerated, stored and collided polarized proton beams of up to 255 GeV as well as ions up t0 100 GeV/n beam energy. A 5-18 GeV electron storage ring will be added in the RHIC tunnel, thus providing...
Dr
Fanglei Lin
(Jefferson Lab)
12/09/2018, 15:10
Future Facilities and Experiments
Parallel Sessions
The Jefferson Lab Electron Ion Collider (JLEIC) is designed to provide high luminosity and high polarization needed to reach new frontiers in the exploration of nuclear structure. The luminosity, exceeding 1033 cm-1s-1 in a broad range of the center-of-mass energy and maximum luminosity above 1034 cm-1s-1, is achieved by high-rate collisions of short small-emittance low-charge bunches made...
Prof.
Xurong Chen
(Institute of Modern Physics, CAS, China)
12/09/2018, 15:30
Future Facilities and Experiments
Parallel Sessions
In this talk, I will troduce the plan to construct a polarized electron-ion collider in China (EicC) based on the high intensity heavy ion facility (HIAF) which is under construction by the institute of modern physics (IMP). The EicC's accelerator design and main physics goals will be discussed.
Dr
Haixin Huang
(Brookhaven National Lab)
12/09/2018, 15:50
Future Facilities and Experiments
Parallel Sessions
This talk will discuss the methods and challenges to make a high-precision measurement of hadron polarization in a high collision frequency and luminosity future electron ion colliders.
Prof.
Anatolii Efremov
(JINR, Dubna)
12/09/2018, 16:40
Future Facilities and Experiments
Parallel Sessions
Main results of DSPIN-17 Workshop are presented.
Prof.
Roumen Tsenov
(JINR)
12/09/2018, 17:00
Future Facilities and Experiments
Parallel Sessions
We review the status of the Spin Physics Detector (SPD) project at the NICA accelerator complex now in construction at the JINR, Dubna. After a short introduction to the beams of polarized particles expected to be available at the NICA collider and their characteristics, we give some account on physics tasks that can be performed with colliding polarized protons and deuterons. Based on that, a...
Dr
Andrew Chen
(University of Illinois Urbana-Champaign)
12/09/2018, 17:20
Future Facilities and Experiments
Parallel Sessions
Although the proton was discovered about 100 years ago, its spin structure still remains a mystery. Recent studies suggest that the orbital angular momentum of sea antiquarks could significantly contribute to the proton's spin. The SeaQuest experiment, which recently completed data collection, probed the unpolarized light sea antiquark distributions of the proton using the Drell-Yan process....
Prof.
Kenneth Barish
(UC Riverside)
12/09/2018, 17:40
Future Facilities and Experiments
Parallel Sessions
The STAR experiment is planning to upgrade the forward rapidity region (2.5 < eta < 4.5) to enable novel measurements in pp, pA and AA collisions. The STAR forward upgrade is motivated by exploration of cold QCD physics in the very high and low regions of x. But it is specifically noted that the forward upgrade will also provide new detector capabilities at RHIC and STAR to explore the...
Dr
Alexander Bazilevsky
(Brookhaven National Laboratory)
12/09/2018, 18:00
Future Facilities and Experiments
Parallel Sessions
sPHENIX is a major upgrade of the PHENIX experiment at Brookhaven National Laboratoryโs Relativistic Heavy Ion Collider (RHIC), designed for detailed studies of the Quark Gluon Plasma created in heavy ion collisions, with focus on jet, photon and heavy flavor measurement capabilities. With its excellent tracking and full calorimetry (hadronic and electromagnetic) in the central...
Daniel Boer
(University of Groningen)
13/09/2018, 14:30
Future Facilities and Experiments
Parallel Sessions
This talk will review from a theoretical point of view possibilities to measure spin effects at a high-energy Electron-Ion Collider (EIC). Various types of spin distributions will be reviewed and promising observables will be discussed.
Dr
Salvatore Fazio
(Brookhaven National Laboratory)
13/09/2018, 14:50
Future Facilities and Experiments
Parallel Sessions
The American 2015 nuclear physics long-range plan endorsed the realization of an electron-ion collider (EIC) as top priority for a next large construction project in the United States.
With the design of an EIC, advancements in theory and further development of phenomenological tools, we are now preparing for the next step in subnuclear tomographic imaging. The collider's large range of...
Dr
Liang Zheng
(China University of Geosciences (Wuhan))
13/09/2018, 15:10
Future Facilities and Experiments
Parallel Sessions
In this work, we present a systematic study on the feasibility of probing the
largely unexplored transverse momentum dependent gluon Sivers function (GSF) in
open charm production, high p$_T$ charged di-hadron and di-jet production at a future high energy, high luminosity Electron-Ion Collider (EIC). The Sivers function is a measure for the anisotropy of the parton distributions in momentum...
Brian Page
(Brookhaven National Lab)
13/09/2018, 15:30
Future Facilities and Experiments
Parallel Sessions
Jets have been important observables in high-energy collider experiments for over four decades and have provided discoveries and insights in electron-positron, electron-hadron, hadron-hadron, and nucleus-nucleus collisions. With advances in experimental technique and theoretical understanding, jets have become precision tools in the exploration of QCD. As the primary purpose of the future...
Dr
Harut Avagyan
(Jefferson Lab)
13/09/2018, 15:50
Future Facilities and Experiments
Parallel Sessions
The study of the 3D nucleon structure by probing the
transverse momentum dependent (TMD) distributions of partons
in Semi-Inclusive DIS is widely accepted as one of the main
goals of the future Electron Ion Collider (EIC).
Much wider kinematical coverage, and in particular higher PT
and Q2, would allow validating and extending studies of
evolution properties of TMDs planned at JLab12,...
Wim Cosyn
(Ghent University)
13/09/2018, 17:00
Future Facilities and Experiments
Parallel Sessions
Tagged DIS measurements on a polarized deuteron are possible at an electron-ion collider (EIC) with forward proton and neutron detectors. Using the pole extrapolation method, where one extrapolates to the on-shell pole of the struck nucleon, this would enable the extraction of high precision neutron (spin) structure functions in a wide range of $x,Q^2$. We outline the general form of the SIDIS...
Alessio Del Dotto
(INFN)
13/09/2018, 17:20
Future Facilities and Experiments
Parallel Sessions
The study of the nucleon (spin) structure in terms of its basic degrees of freedom
is a central pillar of the EIC initiative; the availability of deuteron and 3He polarized beams will offer unprecedented opportunities to do measurements on the neutron comparable to those of the proton; the combination of these data will deepen our understanding of many aspects of the nucleon spin physics:...
Dr
James Maxwell
(Dr.)
13/09/2018, 17:40
Future Facilities and Experiments
Parallel Sessions
Although crucial to our understanding of nuclear structure, probes of gluonic components in the nucleus can be elusive, as gluons are accessed only indirectly in deep inelastic scattering. In 1989, Jaffe and Manohar identified a gluonic transversity structure function Delta(x,Q^2) which is sensitive to exotic gluonic states in the nucleus, and is accessible via an inclusive measurement on a...
Zhiwen Zhao
(Duke University)
13/09/2018, 18:00
Future Facilities and Experiments
Parallel Sessions
The 3D imaging of nucleon is at the frontier of understanding visible Universe and QCD. There are many efforts to access the nucleon's 3D partonic structure both in the transverse coordinate space (Generalized Parton Distributions) and in the transverse momentum space (Transverse Momentum Dependent distributions). The proposed Solenoidal Large Intensity Device (SoLID) in Hall A at Jefferson...
