Lattice DSB (new version in progress) S. Guiducci Webex 8 February 2011.

Slides:

Advertisements

Similar presentations

CEPC BoosterDesign CEPC Booster Design FCC Week 2015, March, 2015 Marriot Georgetown Hotel Huiping Geng Presented for Chuang Zhang.

Advertisements

SuperB Damping Rings M. Biagini, LNF-INFN P. Raimondi, SLAC/INFN A. Wolski, Cockroft Institute, UK SuperB III Workshop, SLAC, June 2006.

April 6th 2009Olympus Meeting at DESY, F.Brinker1 Vacuum system Available beam scraper Beam dimensions, Target cell Machine Studies on February 7 th 2009.

DR km DTC Lattice 7 July 2011 D. Rubin. DTC01 layout 1.Circumference = m, 712m straights 2.~ 6 phase trombone cells 3.54 – 1.92m long wigglers.

FCC-ee - Lepton Collider For the TLEP Lattice and Optics Design Team: B. Haerer, R. Martin, H. Garcia, R. Tomas, Y. Cai and many colleagues Optics Challenges.

March A. Chancé, J. Payet DAPNIA/SACM / Beta-beam ECFA/BENE Workshop The Decay Ring -First Design- A. Chancé, J.Payet CEA/DSM/DAPNIA/SACM.

45 th ICFA Beam Dynamic Workshop June 8–12, 2009, Cornell University, Ithaca New York Jim Crittenden Cornell Laboratory for Accelerator-Based Sciences.

Y. Ohnishi / KEK KEKB-LER for ILC Damping Ring Study Simulation of low emittance lattice includes machine errors and optics corrections. Y. Ohnishi / KEK.

CLIC Pre-damping rings overview F. Antoniou, Y. Papaphilippou CLIC Workshop 2009.

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.

Vacuum Issues from the Beam Dynamics Point of View Marc Muñoz.

CASA Collider Design Review Retreat HERA The Only Lepton-Hadron Collider Ever Been Built Worldwide Yuhong Zhang February 24, 2010.

Extraction from the Delivery Ring November 19, 2013 J. Morgan.

November 14, 2004First ILC Workshop1 CESR-c Wiggler Dynamics D.Rubin -Objectives -Specifications -Modeling and simulation -Machine measurements/ analysis.

DR 3.2 km Lattice Requirements Webex meeting 10 January 2011.

Damping Ring Parameters and Interface to Sources S. Guiducci BTR, LNF 7 July 2011.

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,

E Levichev -- Dynamic Aperture of the SRFF Storage Ring Frontiers of Short Bunches in Storage Rings INFN-LNF, Frascati, 7-8 Nov 2005 DYNAMIC APERTURE OF.

1 EMMA Tracking Studies Shinji Machida ASTeC/CCLRC/RAL 4 January, ffag/machida_ ppt & pdf.

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

By Verena Kain CERN BE-OP. In the next three lectures we will have a look at the different components of a synchrotron. Today: Controlling particle trajectories.

PEP-X Ultra Low Emittance Storage Ring Design at SLAC Lattice Design and Optimization Min-Huey Wang SLAC National Accelerator Laboratory With contributions.

The Introduction to CSNS Accelerators Oct. 5, 2010 Sheng Wang AP group, Accelerator Centre,IHEP, CAS.

FFAG’ J. Pasternak, IC London/RAL Proton acceleration using FFAGs J. Pasternak, Imperial College, London / RAL.

2011 Damping Rings Lattice Evaluation WebEx Meeting May 24, 2011 Mark Palmer Cornell University.

CEPC Booster Zhang Chuang, Cui Xiaohao September 11,2015.

FCC-ee booster: preliminary design study Dmitry Shwartz BINP

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.

Damping Ring Specifications S. Guiducci ALCPG11, 20 March 2011.

Parameter scan for the CLIC damping rings July 23rd, 2008 Y. Papaphilippou Thanks to H. Braun, M. Korostelev and D. Schulte.

Slip stacking in Recycler Ioanis Kourbanis 9/14/11.

Analysis of Garren’s 27-Jul-2011 Hybrid Synchrotron Lattice J. Scott Berg Brookhaven National Laboratory Advanced Accelerator Group Meeting February 2,

THE NEXT LINEAR COLLIDER DAMPING RING COMPLEX J.N. Corlett, S. Marks, R. Rimmer, R. Schlueter Ernest Orlando Lawrence Berkeley National Laboratory, Berkeley,

Investigation of Injection Schemes for SLS 2.0

Operated by JSA for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Alex Bogacz NuFact’08, Valencia, Spain, July 4, 2008 Acceleration.

IntraBeam Scattering Calculation T. Demma, S. Guiducci SuperB Workshop LAL, 17 February 09.

First evaluation of Dynamic Aperture at injection for FCC-hh

Optimization of the Collider rings’ optics

J-PARC main ring lattice An overview

MDI and head-on collision option for electron-positron Higgs factories

Zgoubi tracking study of the decay ring

FCC-ee - Lepton Collider

Review of new High Energy Rings

ILC DR Lower Horizontal Emittance? -2

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

Large Booster and Collider Ring

Non linear optimization of the CLIC pre-damping rings

First Look at Nonlinear Dynamics in the Electron Collider Ring

IntraBeam Scattering Calculation

CASA Collider Design Review Retreat Other Electron-Ion Colliders: eRHIC, ENC & LHeC Yuhong Zhang February 24, 2010.

R. Bartolini Diamond Light Source Ltd

DA Study for the CEPC Partial Double Ring Scheme

Progress of SPPC lattice design

Design Study of the CEPC Booster

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

Collider Ring Optics & Related Issues

Towards an NMC lattice for PS2

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

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

Study on Emittance Reduction with a Robinson Wiggler in HEPS

Negative Momentum Compaction lattice options for PS2

Kicker and RF systems for Damping Rings

Towards an NMC Ring: Dispersion suppressor & long straight section

Optics considerations for PS2

Negative Momentum Compaction lattice options for PS2

Towards an NMC Ring: Dispersion suppressor & long straight section

Ion ring lattice with -I sextupole pairs for ir chromaticity correction Y. Nosochkov, M-H. Wang

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

3.2 km FODO lattice for 10 Hz operation (DMC4)

Presentation transcript:

Lattice DSB (new version in progress) S. Guiducci Webex 8 February 2011

RF and wiggler straight section

Injection extraction straight section The length of the straight sections is slightly different, needs a correction

Arc cells  x 1 =  SF  x 2 = 1.5   y 1 =  y 2 = 

Dynamic Aperture The horizontal acceptance is fine The vertical acceptance is too small The violet line is the maximum beam size of the injected beam 3  inj

A x e A y vs  p/p The energy acceptance is much larger than 1% AxAy

Parameters

Arc and straights arcStraight 1Straight 2Total Qx Qy Cx Cy S (m) No chicane in the straights The length of the straights needs to be adjusted

Straight sections corrected new wiggler model To allow for 10 Hz operation: 50 wigglers (24 off)

Straight sections corrected

New wiggler model DSB3 Period = 0.4 m Field B = 1.6 T Pole length 0.1 m Pole distance 0.1 m New Period = 0.3 m Field B = 1.9 T Pole length 0.09 m Pole distance 0.06 m

Dynamic aperture at  p/p=0 The vertical dynamic aperture becomes worst