Introduction and Workshop Charge

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Presentation transcript:

Introduction and Workshop Charge Rolf Ent 2nd Mini-Workshop on MEIC IR Design November 2, 2012

Into the “sea”: the EIC MEIC EIC 12 GeV An EIC aims to study the sea quarks and gluon-dominated matter. With 12 GeV we study mostly the valence quark component MEIC EIC 12 GeV

The Physics Program of an EIC I) Map the spin and spatial structure of quarks and gluons in nucleons Sea quark and gluon polarization Transverse spatial distributions Orbital motion of quarks/gluons Parton correlations: beyond one-body densities (show the nucleon structure picture of the day…) II) Discover the collective effects of gluons in atomic nuclei Color transparency: Small-size configurations Nuclear gluons: EMC effect, shadowing Strong color fields: Unitarity limit, saturation Fluctuations: Diffraction (without gluons there are no protons, no neutrons, no atomic nuclei) III) Understand the emergence of hadronic matter from color charge Materialization of color: Fragmentation, hadron breakup, color correlations Parton propagation in matter: Radiation, energy loss (how does M = E/c2 work to create pions and nucleons?) Needs high luminosity and range of energies + some developing ideas for fundamental symmetry tests

MEIC Design Report Posted: arXiv:1209.0757 Stable design for 3 years

EIC Realization Imagined Activity Name 2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 12 Gev Upgrade FRIB EIC Physics Case NSAC LRP EIC CD0 EIC Machine Design/R&D EIC CD1/Downsel EIC CD2/CD3 EIC Construction

EIC Status EIC moving forward: Strong science case, much builds on JLab 12 GeV program White paper under construction, near-final MEIC design well developed – time scale following 12 GeV program is “natural” Conceptual design report on arXiv:1209.0757 Concept for regular electron cooling further worked out Many aspects of cooling can be tested at JLab/FEL Truly integrated detector/interaction region design is unprecedented Several JLab user proposals for generic detector R&D call MEIC design has been stable for last few years, and starts getting favorable attention. Recent example, JSA Science Council of 08/29/12: “… was impressed by the outstanding quality of the present MEIC design” “The report is an excellent integrated discussion of all aspects of the MEIC concept.” “The design is imaginative and aggressive … There are many novel ideas in the design”

Workshop Charge Beyond overview of recent detector/IR integration work, goals are Revisit and quantification of synchrotron and neutron backgrounds Develop 2nd IR sketch and consider further impact on MEIC design Develop concept for Low-energy IR/detector Design optimization of collider with warm magnets and maximum achievable luminosity Low-energy IP <20 GeV/c p <12 GeV/c e