Physics Opportunities with Heavy Quarkonia at the EIC

US/Eastern
Online

Online
Christian Weiss (Jefferson Lab), Fredrick Olness (SMU), Ivan Vitev (LANL), Jin Huang (Brookhaven National Lab), Xuan Li (Los Alamos National Laboratory)
Description

 

The workshop will be held online via Zoom. Use this link for the remote connection: This Zoom 

 

The Electron-Ion Collider (EIC) has recently received CD-1 approval from the US Department of Energy. The EIC Yellow Report, which summarizes our current understanding of the physics program at the future facility, has been published. The international community has formed proto-collaborations and is working toward detector proposal submissions. One topic, which has not received detailed coverage in the Yellow Report, is the production of quarkonia in deep inelastic scattering (DIS). It is both important and timely to have an expert-level discussion on heavy quarkonium production, its role in determining nucleon and nuclear structure, and the physics of hadronization and final-state interactions. The EIC community can utilize the lessons learned from HERA, the Tevatron, RHIC, and the LHC. We hope that the workshop will help the proto-collaborations flesh out this physics in their upcoming detector proposals. 

Questions that the workshop will address include, among others, the following: 

  • Production of quarkonia in DIS: NRQCD and the various factorization schemes, such as collinear and TMD factorization, will be reviewed with an emphasis on the theoretical developments for a precision quarkonium program at the electron-ion collider. We plan to have an in-depth discussion of the constraints that the EIC can provide on the LDMEs and cover specifics related to the lower center-of-mass energies at the EIC, such as near-threshold production, and high center-of-mass energies, such as the small-x regime.  
  • Initial-state and final state effects for quarkonia: Quarkonia are complementary probes of the structure of nucleons and nuclei and can provide unique insights into their gluon content. In electron-nucleus collisions shadowing effects and final-state interactions can further alter the production rates of the J/y and U families. The theory that relates the quenching of quarkonia to the transport properties of cold nuclear matter needs further development. At this workshop, we intend to work toward strategies that can help us separate the initial-state and final-state effects.  
  • Instrumentation and detector capabilities for quarkonium physics at the EIC: Rates, backgrounds, and detection channels for quarkonia in deep inelastic scattering will be discussed. We plan to invite experts from the current hadron collider experiments to describe the state-of-the-art technology and detector sub-systems for quarkonium measurements. A central topic of the workshop will be an in-depth examination of the J/y and U physics programs of ATHENA, CORE, and ECCE. We expect that this discussion will also help the proto-collaborations refine and finalize their detector proposals. 

For each of the three days of the workshop, we will focus on addressing one of the above topics with talks from experts and students, as well as a topical discussion session at the end of the day. 

This event is part of the CFNS workshop/ad-hoc meeting series. See the CFNS conferences page for other events.

 

Participants
  • Abhay Deshpande
  • Abhishek Mohapatra
  • Ailec de la Caridad Bell Hechavarría
  • Aleksander Kusina
  • Alexander Milov
  • Anthony Frawley
  • Anton Andronic
  • Aram Kotzinian
  • Arvind Kumar
  • Asmita Mukherjee
  • Astrid Hiller Blin
  • Audrey Francisco
  • Ayman Al-bataineh
  • Carlo Flore
  • Chalis Setyadi
  • Charles Hyde
  • Charlotte Van Hulse
  • Cheuk-Ping Wong
  • Chi yang
  • Chiara Bissolotti
  • Christian Weiss
  • Christine Ploen
  • Cyrille Marquet
  • Daniel Boer
  • Daniel Kikola
  • David Morrison
  • Dener Lemos
  • Derek Soeder
  • Dmitri Kharzeev
  • Enrico Scomparin
  • Erik Wrightson
  • Ernst Sichtermann
  • Evgeny Shulga
  • Feng Yuan
  • Francesco Bossù
  • Francesco Giovanni Celiberto
  • Francesco Murgia
  • Fredrick Olness
  • Gavin Wilks
  • Geoffrey Bodwin
  • Grzegorz Grzelak
  • Hamlet Mkrtchyan
  • Harleen Dahiya
  • HE ZHIGUO
  • Hugo PEREIRA DA COSTA
  • Ian Olivant
  • Ignazio Scimemi
  • Igor Strakovsky
  • Ira Rothstein
  • Ivan Vitev
  • Jamal Jalilian-Marian
  • Janet Seger
  • Jean-Philippe Lansberg
  • Jelle Bor
  • Jennifer Rittenhouse West
  • Jianwei Qiu
  • Jin Huang
  • John Lajoie
  • Jorge Segovia
  • Kate Lynch
  • Kazuhiro Watanabe
  • Kiminad Mamo
  • Krista Smith
  • Leszek Kosarzewski
  • Liang Zheng
  • Lijuan Ruan
  • Liliana Teodorescu
  • Lin Dai
  • Lubomir Pentchev
  • Luca Maxia
  • M Gabriel Santiago
  • Mahumm Ghaffar
  • Marcelo Munhoz
  • Mark Baker
  • Mark Strikman
  • Marshall Scott
  • Marzia Rosati
  • Matt Durham
  • Michael Murray
  • Miguel Echevarria
  • Ming Liu
  • Murad Sarsour
  • Natalya Dashyan
  • Nikolai Smirnov
  • Nora Brambilla
  • Oleg Grachov
  • Ophir Ruimi
  • Or Hen
  • Patricia Andrea Gutiérrez García
  • Peter Petreczky
  • Peter Schweitzer
  • Pia Zurita
  • Pit Duwentäster
  • Qian Yang
  • Ralf Rapp
  • Ramona Vogt
  • Reefat Reefat
  • Ronan McNulty
  • Rongrong Ma
  • Ross Corliss
  • Sanghoon Lim
  • Sean Dobbs
  • Senjie Zhu
  • Spencer Klein
  • Stacyann Nelson
  • Suman Deb
  • Te-Chuan Huang
  • Thomas Mehen
  • Tomasz Stebel
  • Umberto D'Alesio
  • Vaibhavi Gawas
  • Vardan Tadevosyan
  • varun vaidya
  • Victor Paulo Goncalves
  • Viljami Leino
  • Vincent Cheung
  • Xiangpeng Wang
  • Xin Dong
  • xinbai li
  • Xuan Li
  • Yan-Qing Ma
  • Yang-Ting Chien
  • Yelyzaveta Yedelkina
  • Yi Yang
  • Yongseok Oh
  • Yordanka Ilieva
  • Yuanjing Ji
  • Yufu Lin
  • Yuxiang Zhao
  • Zhaozhong Shi
  • Zhenyu Ye
  • Zhongbo Kang
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