Rough designs for The LEB and HEB for pCDR-100

Slides:

Advertisements

Similar presentations

12 PERIOD HYBRID WARM-COLD SYNCHROTRON FOR THE MUON COLLIDER Al Garren November 10, 2011.

Advertisements

Eric Prebys, FNAL.  So far, we’ve talked about nice, periodic lattice, but that may not be all that useful in the real world. In particular, we generally.

Study of the Luminosity of LHeC, a Lepton Proton Collider in the LHC Tunnel CERN June F. Willeke, DESY.

Super B-Factory Workshop, Hawaii, April 20-22, 2005 Lattice studies for low momentum compaction in LER M.E. Biagini LNF-INFN, Frascati.

Recirculating pass optics V.Ptitsyn, D.Trbojevic, N.Tsoupas.

Luminosity Prospects of LHeC, a Lepton Proton Collider in the LHC Tunnel DESY Colloquium May F. Willeke, DESY.

ILC RTML Lattice Design A.Vivoli, N. Solyak, V. Kapin Fermilab.

Update of 3.2 km ILC DR design (DMC3) Dou Wang, Jie Gao, Gang Xu, Yiwei Wang (IHEP) IWLC2010 Monday 18 October - Friday 22 October 2010 Geneva, Switzerland.

Operated by JSA for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility EIC Collaboration Meeting, Hampton University, May 19-23,

Eric Prebys, FNAL.  In our previous discussion, we implicitly assumed that the distribution of particles in phase space followed the ellipse defined.

Harold G. Kirk Brookhaven National Laboratory Progress in Quad Ring Coolers Ring Cooler Workshop UCLA March 7-8, 2002.

KEKB lattice Taken from LATTICE DESIGN FOR KEKB COLLIDING RINGS By H. Koiso and K. Oide.

ILC Damping Ring Alternative Lattice Design （ Modified FODO ） ** Yi-Peng Sun *,1,2, Jie Gao 1, Zhi-Yu Guo 2 Wei-Shi Wan 3 1 Institute of High Energy Physics,

LER Workshop, October 11, 2006LER & Transfer Line Lattice Design - J.A. Johnstone1 LHC Accelerator Research Program bnl-fnal-lbnl-slac Introduction The.

HYBRID WARM-COLD SYNCHROTRON FOR THE MUON COLLIDER Al Garren July 28, 2011.

FFAG Lattice Design of eRHIC and LHeC Dejan Trbojevic and Stephen Brooks EIC 2014 Workshop – Dejan Trbojevic and Stephen Brooks 1.

Hybrid Synchrotron Arc: 2 Dipoles per Half Cell J. Scott Berg Advanced Accelerator Group Meeting 28 July 2011.

Lattice design for FCC-ee Bastian Haerer (CERN BE-ABP-LAT, Karlsruhe Institute of Technology (KIT)) 1 8 th Gentner Day, 28 October 2015.

Hybrid Fast-Ramping Synchrotron to 750 GeV/c J. Scott Berg Brookhaven National Laboratory MAP Collaboration Meeting March 5, 2012.

Layout and Arcs lattice design A. Chancé, B. Dalena, J. Payet, CEA R. Alemany, B. Holzer, D. Schulte CERN.

Optimization of the Collider rings’ optics

Cui Xiaohao, Zhang Chuang,Bian Tianjian January 12,2016

Large Booster and Collider Ring

Non-linear Beam Dynamics Studies for JLEIC Electron Collider Ring

CEPC pretzel scheme study

Electron collider ring Chromaticity Compensation and dynamic aperture

NuSTORM - μ Storage Ring with Injection

Electron Ring Optics Design

Progress of SPPC lattice design

XII SuperB Project Workshop LAPP, Annecy, France, March 16-19, 2010

LHC (SSC) Byung Yunn CASA.

ILC 3.2 km DR design based on FODO lattice (DMC3)

Collider Ring Optics & Related Issues

M. Biagini, S. Guiducci ECLOUD WG webex meeting December 15, 2009

ILC 3.2 km DR design based on FODO lattice (DMC3)

Negative Momentum Compaction lattice options for PS2

Comparison of NMC rings for PS2

Update on CEPC pretzel scheme design

PS2 meeting NMC lattice for PS2 Y. Papaphilippou September 28th, 2007.

Towards an NMC Ring: Dispersion suppressor & long straight section

Negative Momentum Compaction lattice options for PS2

Towards an NMC Ring: Dispersion suppressor & long straight section

Vertical Dogleg Options for the Ion Collider Ring

Progress on Non-linear Beam Dynamic Study

Feasibility of Reusing PEP-II Hardware for MEIC Electron Ring

Path Length Chicane Options

Transfer Line for EIC.

Main Design Parameters RHIC Magnets for MEIC Ion Collider Ring

The Feasibility of Using RHIC Magnets for MEIC and Cost Impact

Ion Collider Ring Using Superferric Magnets

Fanglei Lin, Yuhong Zhang JLEIC R&D Meeting, March 10, 2016

Alternative Ion Injector Design

Fanglei Lin, Yuri Nosochkov Vasiliy Morozov, Yuhong Zhang, Guohui Wei

Fanglei Lin MEIC R&D Meeting, JLab, July 16, 2015

JLEIC Collider Rings’ Geometry Options (II)

Progress Update on the Electron Polarization Study in the JLEIC

Status of IR / Nonlinear Dynamics Studies

Possibility of MEIC Arc Cell Using PEP-II Dipole

More on MEIC Beam Synchronization

JLEIC Electron Ring Nonlinear Dynamics Work Plan

Update on MEIC Nonlinear Dynamics Work

Fanglei Lin JLEIC R&D Meeting, August 4, 2016

MEIC R&D Meeting, JLab, August 20, 2014

MEIC Alternative Design Part III

Update on MEIC Nonlinear Dynamics Work

Update on the High Energy Booster Design

A TME-like Lattice for DA Studies

Large Ion Booster Re-design Update

3.2 km FODO lattice for 10 Hz operation (DMC4)

MOPRB098 An Increased Extraction Energy Booster Complex For The Jefferson Lab Electron Ion Collider* Thomas Jefferson National Accelerator Facility Newport.

Presentation transcript:

Rough designs for The LEB and HEB for pCDR-100 Edith Nissen 2/28/2019

LEB outline Uses FODO lattice at 105 degree phase advance 𝛾 𝑡 =10.5 Tuning in progress Currently using the straight sections to change the tune, will add more quad values

Magnets 96 arc quadrupoles (60cm) (2 values) 40 Straight quadrupoles (60 cm) (10 values) 96 arc sextupoles (20cm) (2 values) 2.5m dipoles

HEB outline Uses similar cell size as ion collider ring, but with a higher phase advance to increase 𝛾 𝑡 𝛾 𝑡 =16.02 Will match geometry more closely when the Ion collider ring geometry is set. With bypasses installed there will be a pathlength mismatch between the rings, is this an issue?

Issues left Awaiting final ion ring geometry to match the tunnel, and add bypasses for detector(s) Information on beam parameters throughout the chain.