Wrap-Up Discussion: EIC R&D and Future Collaborations Andrei Seryi
23 Slides8.28 MB
Wrap-Up Discussion: EIC R&D and Future Collaborations Andrei Seryi and Ferdinand Willeke With input and ideas from many colleagues EIC Accelerator Collaboration Meeting October 29 - November 1, 2018
EIC collaboration A lot of opportunities to strengthen EIC collaboration -With national labs and universities (as described by Ferdinand) -With worldwide nuclear physics / particle physics / accelerator centers Many areas of collaboration opportunities -Machine Detector Interface -Beam cooling -SRF technology -SC magnets - Opportunities and synergy with ongoing and planned projects -IR / SRF – HE-LHC, Super-B, LCLS-HE, FCC, LHeC, ILC, CEPC, October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 2
Detector & MDI – collaboration opportunity IR designed to support full-acceptance detection unprecedented requirement Satisfy geometric match (elements) and beam dynamics (chromatic compensation) Crab crossing: large (25-50 mrad), avoiding parasitic collisions, optimizing detections IP IR Layout Compton polarimetry forward e detection Central Detector spectrometers electron forward ion detection dispersion suppressor/ geometric match ions Significant need/ opportunities for collaboration on EIC detector and Machine Detector Interface October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 3
MDI & IR – expanding collaboration efforts Work on common set of physics channels to define detector acceptance Work on ”Machine – Detector interface requirement document” Possible title: -Functional Requirements on the Design of the Detectors and the Interaction Region of EIC This paper aims to separate the functional requirements of an EIC interaction region and machine detector interface from any particular conceptual or technical solution that might have been proposed to date by design teams, and to document the requirements. EIC User group / MDI team– opportunity to lead the efforts Opportunity to engage European and world-wide collaborators European Strategy update for particle physics October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 4
Machine – Detector interface requirement document Functional Functional Requirements on Requirements on the Design of the the Design of the Detectors and the Detectors and the Interaction Region Interaction Region of EIC of EIC MDI interface document: Complementary to pre-CDR (CDR), Detector Handbook Focus only on requirements, not solutions Opportunity to be lead by EIC UG MDI team – potential for large international collaboration October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 5
European Strategy update for particle physics Every few years, the European particle physics community reviews the roadmap and priorities of the field, updating the European Strategy for Particle Physics (ESPP) The update process has been launched by the CERN Council in September 2018 and is scheduled to be completed in May 2020 Submissions (10 pages) are due by 18 December 2018 EIC is planning to make two coordinated submissions: -EIC Physics (coordinated by EIC User Group) -EIC Accelerator Science and Technology (coordinated by F.W. and A.S.) The goals of submissions is to enhance collaboration on EIC October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 6
https://indico.cern.ch/event/729871/ October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 7
ESPP Open Symposium – May 2019 Extract from agenda of ESPP Open Symposium 2012: We hope EIC will get on the agenda of Accelerator Science and Technology section in May 2019 symposium https://indico.cern.ch/event/182232/ October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 8
“EIC Accelerator Science and Technology” - submission to European Strategy Sections of the 10-pager draft: The Physics Motivation of the Electron Ion Collider (1p) Lessons learned from previous/existing machines & path forward (0.5p) The JLEIC design of the EIC ( 3p) The eRHIC design of the EIC ( 3p) Common table of JLEIC and eRHIC parameters (0.5p) Research and Development for the electron ion collider ( 1p) EIC R&D synergies with European projects ( 1p) October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 9
EIC Accelerator Science and Technology – from the draft: October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 10
Backup slides October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 11
Examples of projects synergies between EIC and European projects Examples of ongoing collaboration (incomplete list) -HL-LHC crab cavity system (ODU and JLab) – CERN, UK, -PERLE ( LHeC ER demo) – cavities, optics – LAL & IPN Orsay, -Muon Collider (e e- threshold version) FFAG optics – INFN, Next slides - illustrations for some of this work Thanks for materials for slides: Alex Bogacz, Jean Delayen, Frank Marhauser, Vasiliy Morozov, Tony Reilly, Bob Rimmer, Todd Satogata, Yuhong Zhang and many other October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 12
LHC High Luminosity Upgrade and crab cavities Design of crabbing system ODU involvement since 2009 S. De Silva , PhD student, now scientist H. Park, PhD student R. Olave, post-doc Collaboration with Z. Li (SLAC) and N. Huque (JLab) October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 13
Crabbing System for LHC High Luminosity Upgrade Proof-of-Principle Cavity S. De Silva’s ODU PhD work Prototype Cavity ODU/SLAC HOM Couplers ODU/SLAC/JLab October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 14
Test on the CERN SPS Cryo Jumper Tuning System HOM Couplers Fundamental Power Coupler Crab Cavity Operation in a Hadron Ring ODU/BNL/Jlab Collaboration Supported by DOE-NP grant October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 15
PERLE – ‘Stepping Stone’ for 100 MW ERLs 400 MeV PERLE with 10 MW beam power is a unique ‘test bed’ for next generation of high power ERLs 3 passes ‘up’ 3 passes ‘down’ Multi-lab collaboration expanding on JLab’s core competencies in: Operation of present state-of-art MW scale ERLs (IR/UV FELs) Beam dynamics and accelerator design for multi-pass ERLs Cavity modeling and cryo-module design Synergy between PERLE and JLEIC Cooler, where similar beam dynamics issues need to be solved October 29 – November 1, 2018 Testing multi-pass beam dynamics in energy recovery mode. Demonstrator for the LHeC/FCC eh ERLs Probing limits of transporting nonequilibrium beams with high ratio of beam power to installed RF power Mitigation of longitudinal phase-space distortion due to wakes, including CSR and longitudinal S-C Preservation of beam quality/stability in presence of collective effects, errors and imperfections Fall 2018 EIC Accelerator Collaboration Meeting 16
SRF technology development – PERLE cavity First Nb 802 MHz 5-cell cavity – Oct 2017 802 MHz Niobium single cell cavity – completed in Aug 2017 5-cell cavity being electropolished October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 17
SRF technology development – PERLE cavity Beautiful results on Q and gradient October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 18
PERLE – Optics, Lattices 3-pass up 3-pass down linac optics with energy recovery October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 19
60 GeV Emittance Preserving ERL for the LHeC Ongoing collaboration between JLAB and CERN encompasses: Accelerator design and beam dynamics studies Lattice design and performance optimization 802 MHz 5-cell cavity modeling and cryo-module design Future studies will include design of a lower energy 50 GeV ERL option. October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 20
Arc Optics – Emittance preserving FMC cells Arc 3 Optics (30 GeV) De xN October 29 – November 1, 2018 55r0 hc 6 p g Hx 2 2 r 24 3 mc Fall 2018 EIC Accelerator Collaboration Meeting 21
Muon Acceleration via ‘Dogbone’ RLA Fixed field multi-pass (4.5) RLA based on SRF linac suitable for multi GeV acceleration of fast decaying muons features: All the bulling blocks of muon RLA developed at Jlab within Muon Accelerator Program: Engineering design of beamlines, magnet specs Beam dynamics studies of the longitudinal and transverse emittance preservation End-to-end 6D simulation with magnet errors Our pioneering work on muon acceleration is quite applicable to newly emerging path to low emittance muon collider via muon production from electron-positron annihilation (LEMMA). Initial collaboration with INFN Frascati has started to adapt the above scheme to low emittance muon beams and extend the energy range beyond tens of GeV. October 29 – November 1, 2018 Simultaneous acceleration of both m and m- charge species ‘Dogbone’ topology offering high efficiency of RF usage (close to factor of 2 higher than a corresponding racetrack) “Bisected” linac optics allowing for accelaration in both directions: the quadrupole gradients are scaled up with momentum for the first half of the linac, then they are mirror reflected in the second half. Compact nested droplet arcs, since no sizable synchrotron radiation Extension to multi-pass FFA-like arcs Fall 2018 EIC Accelerator Collaboration Meeting 22
In summary A lot of opportunities to strengthen and expand EIC collaboration October 29 – November 1, 2018 Fall 2018 EIC Accelerator Collaboration Meeting 23