Presentation is loading. Please wait.

Presentation is loading. Please wait.

Insertion Devices and Magnets GroupJ A Clarke, Daresbury Laboratory Undulators and Wigglers for Future Linear Colliders Jim Clarke ASTeC Daresbury Laboratory.

Published byJoshua Houston Modified over 10 years ago

Similar presentations

Presentation on theme: "Insertion Devices and Magnets GroupJ A Clarke, Daresbury Laboratory Undulators and Wigglers for Future Linear Colliders Jim Clarke ASTeC Daresbury Laboratory."— Presentation transcript:

1 Insertion Devices and Magnets GroupJ A Clarke, Daresbury Laboratory Undulators and Wigglers for Future Linear Colliders Jim Clarke ASTeC Daresbury Laboratory 12th June 2002

2 Insertion Devices and Magnets GroupJ A Clarke, Daresbury Laboratory Experience at Daresbury Many years in Insertion Devices ðOne of the first undulators ever built ðSuperconducting Wigglers ðHigh Field Permanent Magnet Wigglers ðPM Helical Undulators for Storage Rings and FELs ðMagnet Design and Assembly, Mechanical Engineering, Magnet Testing

3 Insertion Devices and Magnets GroupJ A Clarke, Daresbury Laboratory Recent Projects 2.4 T Hybrid PM Wiggler for SRS Planar Helical Undulator for SRS & DIAMOND Helical Undulator for FEL

4 Insertion Devices and Magnets GroupJ A Clarke, Daresbury Laboratory Polarised Positron Source We have recently agreed with TESLA that we will design the helical undulator for their polarised positron source This will be a ~100 m, short period device (~12 mm) which will use the 250 GeV electron beam to generate ~20 MeV circularly polarised photons.

5 Insertion Devices and Magnets GroupJ A Clarke, Daresbury Laboratory Present TESLA Layout

6 Insertion Devices and Magnets GroupJ A Clarke, Daresbury Laboratory Existing Design Superconducting Double Helix with Iron (Floettmann)

7 Insertion Devices and Magnets GroupJ A Clarke, Daresbury Laboratory Project Plan Phase 1 (~ 9 - 12 months) ðReview Basic Specification ðCompare Alternative Solutions ðAssess Engineering Feasibility ðMake Recommendations for Phase 2 Phase 2 (~ 12 - 15 months) ðDetailed Magnetic and Engineering Design ðConstruct Prototype Phase 3 (~ 6 - 12 months) ðDetailed Test and Measurement in Lab ðTests with Beam (?)

8 Insertion Devices and Magnets GroupJ A Clarke, Daresbury Laboratory Wigglers Damping Rings require many meters of high field wigglers (10s to 100s) We have designed some of the highest field strength permanent magnet wigglers in the world - much higher than is presently being considered by NLC These may provide a more cost effective solution

Download ppt "Insertion Devices and Magnets GroupJ A Clarke, Daresbury Laboratory Undulators and Wigglers for Future Linear Colliders Jim Clarke ASTeC Daresbury Laboratory."

Similar presentations

1 Diamond RAL Particle Physics Masterclass 12 March 2003 Glenn Patrick

1 Diamond RAL Particle Physics Masterclass 12 March 2003 Glenn Patrick
Summary of Projects Kai Hock. LHC Upgrade About the project LHC is a 27 km circular accelerator in CERN that produces 7 TeV protons. The project is to.

Summary of Projects Kai Hock. LHC Upgrade About the project LHC is a 27 km circular accelerator in CERN that produces 7 TeV protons. The project is to.
A Study of Mechanical and Magnetic Issues for a Prototype Positron Source Target The positron source for the International Linear Collider (ILC) comprises.

A Study of Mechanical and Magnetic Issues for a Prototype Positron Source Target The positron source for the International Linear Collider (ILC) comprises.
Liverpool Accelerator Physics Group International Linear Collider (ILC) R&D The Cockcroft Institute The University of Liverpool is the lead organisation.

Liverpool Accelerator Physics Group International Linear Collider (ILC) R&D The Cockcroft Institute The University of Liverpool is the lead organisation.
T Bradshaw On behalf of the SCU group 1 Status of the Superconducting Undulator Development in the UK Superconducting Undulator Workshop, Rutherford Appleton.

T Bradshaw On behalf of the SCU group 1 Status of the Superconducting Undulator Development in the UK Superconducting Undulator Workshop, Rutherford Appleton.
ESLS 04 Daresbury Laboratory

ESLS 04 Daresbury Laboratory
I.R. Bailey, J.B. Dainton, L.J. Jenner, L.I. Malysheva (University of Liverpool / Cockcroft Institute)

I.R. Bailey, J.B. Dainton, L.J. Jenner, L.I. Malysheva (University of Liverpool / Cockcroft Institute)
FEL and linac plans at MAX IV laboratory

FEL and linac plans at MAX IV laboratory
Mike Jenkins and Ian Bailey. Positron Requirements of a New Collider CLIC SLCILC LHeC 6.0x10 12 e + /s 3.9x10 14 e + /s 4.0x10 16 e + /s 1.1x10 14 e +

Mike Jenkins and Ian Bailey. Positron Requirements of a New Collider CLIC SLCILC LHeC 6.0x10 12 e + /s 3.9x10 14 e + /s 4.0x10 16 e + /s 1.1x10 14 e +
Undulator R & D Jim Clarke STFC Daresbury Laboratory, UK BAW-2 SLAC Jan 2011.

Undulator R & D Jim Clarke STFC Daresbury Laboratory, UK BAW-2 SLAC Jan 2011.
Status of the UK Superconducting Undulator Studies Jim Clarke ASTeC, STFC Daresbury Laboratory FLS 2012, March 2012.

Status of the UK Superconducting Undulator Studies Jim Clarke ASTeC, STFC Daresbury Laboratory FLS 2012, March 2012.
JCS 6-15-05 e + /e - Source Development and E166 J. C. Sheppard, SLAC June 15, 2005.

JCS e + /e - Source Development and E166 J. C. Sheppard, SLAC June 15, 2005.
K.T. McDonald DoE Review Aug. 10, 2006 19 E-166 Experiment E-166 is a demonstration of undulator-based polarized positron production for linear colliders.

K.T. McDonald DoE Review Aug. 10, E-166 Experiment E-166 is a demonstration of undulator-based polarized positron production for linear colliders.
E166 “Polarized Positrons for Future Linear Colliders” John C. Sheppard E166 Co-spokesman SLAC: August 31, 2004.

E166 “Polarized Positrons for Future Linear Colliders” John C. Sheppard E166 Co-spokesman SLAC: August 31, 2004.
K.T. McDonald DoE Review July 29, 2005 1 E-166 Experiment E-166 is a demonstration of undulator-based polarized positron production for linear colliders.

K.T. McDonald DoE Review July 29, E-166 Experiment E-166 is a demonstration of undulator-based polarized positron production for linear colliders.
Accelerator Science and Technology Centre www.astec.ac.uk Abstract The baseline design of the positron source for the International Linear Collider (ILC)

Accelerator Science and Technology Centre Abstract The baseline design of the positron source for the International Linear Collider (ILC)
Liverpool Accelerator Physics Group International Linear Collider (ILC) R&D The Cockcroft Institute The University of Liverpool is the lead organisation.

Liverpool Accelerator Physics Group International Linear Collider (ILC) R&D The Cockcroft Institute The University of Liverpool is the lead organisation.
E166 Collaboration About 45+2 members from 16+1 institutions from all three regions (Asia, Europe, the Americas, and Daresbury) About 45+2 members from.

E166 Collaboration About 45+2 members from 16+1 institutions from all three regions (Asia, Europe, the Americas, and Daresbury) About 45+2 members from.
Status of the HELICAL contribution to the polarised positron source for the International Linear Collider The positron source for the International Linear.

Status of the HELICAL contribution to the polarised positron source for the International Linear Collider The positron source for the International Linear.
E166 Collaboration About 45+2 members from 16+1 institutions from all three regions (Asia, Europe, the Americas, and Daresbury) About 45+2 members from.

E166 Collaboration About 45+2 members from 16+1 institutions from all three regions (Asia, Europe, the Americas, and Daresbury) About 45+2 members from.

Similar presentations

Ads by Google