Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam Design of a new Final Focus System with l* = 4,5 m J. Payet, O. Napoly CEA/Saclay.

Published byClaude Welch Modified over 7 years ago

Similar presentations

Presentation on theme: "1 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam Design of a new Final Focus System with l* = 4,5 m J. Payet, O. Napoly CEA/Saclay."— Presentation transcript:

1 1 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam Design of a new Final Focus System with l* = 4,5 m J. Payet, O. Napoly CEA/Saclay

2 2 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam New Final Focus NLC (P.Raimondi, A.Seryi) Two optics with angular dispersion D x ’* at the IP 1) « Long doublet » : 3 cm radius aperture with 72 T/m, D x ’* = 5 mrad 2) « Short doublet » (not published) 1 cm radius aperture with 140 T/m, D x ’* = 9 mrad

3 3 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam New Final Focus NLC Chromatic correction For both optics, β-bandwidth > ±1% (TESLA parameters) β x * =15 mm β y * = 400 µm

4 4 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam New Final Focus NLC IP spot sizes energy offset short doublet long doublet 1 2 σ x * / 553 nm –1%+1% 1 2 σ y * / 5 nm –1%+1% energy offset

5 5 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam New Final Focus ‘à la NLC’ l* IP waist β* Advantages from the machine point-of-view: –Better chromaticity correction  larger l* – l* = 5m  final doublet moved out of the detector solenoid chromaticity : ξ = l* / β*

6 6 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam New Final Focus with l* = 5m Advantages from the detector point-of-view –Larger forward acceptance at low angles –Final doublet moved out of the calorimeter  less e.m. showers in the detector –Lighter Tungsten-mask and simpler support

7 7 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam Main issues of the Design 1.Extraction of Beam after the interaction 2.Extraction of Synchrotron Radiation from Final Doublet (i.e. check collimation requirements) 3.Final Focus Optics N.B. : First two issues, independent of the FF optics, depend only on l* and on the final doublet apertures Φ.

8 8 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam Beam Extraction φ*φ* Final doublet acceptance Θ* max (E, φ*) with l* = 5m Φ = 48 mm Solenoid B S = 4 T

9 9 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam Comparison of horizontal acceptances (φ*= 0) for l* = 3,4,5 m Differences are small. Tracking simulations are needed l*=5m acceptance : better for lower energies worse for high energies

10 10 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam Synchrotron Radiation Extraction Collimation requirements for l* = 5m Φ = 48 mm inner mask - s = 4 m - Φ = 24 mm

11 11 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam Collimation Requirements l* [m] s mask [m] NxNy TDR321381 New FF521048 New FF547.842  new collimation section required with tail folding by octupoles

12 12 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam NLC type correction, l* =5m SF1, SD1 SF2 SD2 SF3 Beamstrahlung Dump IP angular dispersion D’ x * = 10 mrad

13 13 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam NLC type correction, l* =5m  x @ 400 GeV = 10 -11 m.rad Emittance growth minimized by fine tuning of dipoles

14 14 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam NLC type correction, l* =5m IP spot sizes

15 15 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam Correction type NLC, l* =5m IP spot sizes and luminosity L/L 0 = 0.86 for  E /E = 0.4 %,

16 16 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam Hybrid Correction, l* =5m SH SV1 SV2 Beamstrahlung Dump IP angular dispersion, D’ x * = 2.6 mrad

17 17 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam Hybrid correction, l* =5m  x @ 400 GeV = 10 -11 m.rad Emittance growth at 400 GeV

18 18 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam Chromatic Acceptance IP Spot sizes NLC short doublet NLC long doublet TDR, l* = 3m B789, l* = 5m energy offset σ x * / 553 nm 1 2 energy offset σ y * / 5 nm 2 1

19 19 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam Correction hybride, l* =5m Dimensions rms et luminosité @ IP L/L 0 = 0.70 for  E /E = 0.4 %

20 20 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam Optics Summary The ideal solution is surrounded, but not yet found

21 21 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam Conclusions Design for l* = 4,5 m new optics is possible within the TDR length constraint, about 600 m Momentum bandwith already better than TDR Several optimisations are still needed (w.r.t. to dispersion, emittance growth, octupoles, …) Beam extraction through final doublet : OK Collimation requirements about a factor 2 tighter

Download ppt "1 April 1 st, 2003 O. Napoly, ECFA-DESY Amsterdam Design of a new Final Focus System with l* = 4,5 m J. Payet, O. Napoly CEA/Saclay."

Similar presentations

EXTRACTION BEAM LOSS AT 1 TEV CM WITH TDR PARAMETERS Y. Nosochkov, G. White August 25, 2014.

EXTRACTION BEAM LOSS AT 1 TEV CM WITH TDR PARAMETERS Y. Nosochkov, G. White August 25, 2014.
Beam-Beam Effects for FCC-ee at Different Energies: at Different Energies: Crab Waist vs. Head-on Dmitry Shatilov BINP, Novosibirsk FCC-ee/TLEP physics.

Beam-Beam Effects for FCC-ee at Different Energies: at Different Energies: Crab Waist vs. Head-on Dmitry Shatilov BINP, Novosibirsk FCC-ee/TLEP physics.
ECFA-DESY workshop, NIKEF 1 st April, 2003Nick Walker, DESY Energy Spread Measurement in the TESLA Extraction Line Nick Walker - DESY.

ECFA-DESY workshop, NIKEF 1 st April, 2003Nick Walker, DESY Energy Spread Measurement in the TESLA Extraction Line Nick Walker - DESY.
Zero Degree Extraction using an Electrostatic Separator Take another look at using an electrostatic separator and a weak dipole to allow a zero degree.

Zero Degree Extraction using an Electrostatic Separator Take another look at using an electrostatic separator and a weak dipole to allow a zero degree.
Overview of Beam Delivery System Final Focus Optics Collimator Final Doublet Extraction/Dump Others S.Kuroda ( KEK ) MDI meeting at SLAC 1/6/2005.

Overview of Beam Delivery System Final Focus Optics Collimator Final Doublet Extraction/Dump Others S.Kuroda ( KEK ) MDI meeting at SLAC 1/6/2005.
January 2004 GLC/NLC – X-Band Linear Collider Peter Tenenbaum Beam Dynamics of the IR: The Solenoid, the Crossing Angle, The Crab Cavity, and All That.

January 2004 GLC/NLC – X-Band Linear Collider Peter Tenenbaum Beam Dynamics of the IR: The Solenoid, the Crossing Angle, The Crab Cavity, and All That.
NLC - The Next Linear Collider Project NLC IR Layout and Background Estimates Jeff Gronberg/LLNL For the Beam Delivery Group LCWS - October 25, 2000.

NLC - The Next Linear Collider Project NLC IR Layout and Background Estimates Jeff Gronberg/LLNL For the Beam Delivery Group LCWS - October 25, 2000.
1 August 12, 2005 Running 2mrad IR in e-e- mode: BDS constraints A.Seryi August 12, 2005.

1 August 12, 2005 Running 2mrad IR in e-e- mode: BDS constraints A.Seryi August 12, 2005.
1 Optics and IR design for SuperKEKB Y.Ohnishi 1/19-22, 2004 Super B Factory Workshop in Hawaii.

1 Optics and IR design for SuperKEKB Y.Ohnishi 1/19-22, 2004 Super B Factory Workshop in Hawaii.
Karsten Büßer Beam Induced Backgrounds at TESLA for Different Mask Geometries with and w/o a 2*10 mrad Crossing Angle HH-Zeuthen-LC-Meeting Zeuthen September.

Karsten Büßer Beam Induced Backgrounds at TESLA for Different Mask Geometries with and w/o a 2*10 mrad Crossing Angle HH-Zeuthen-LC-Meeting Zeuthen September.
October 31, BDS Group1 ILC Beam Delivery System “Hybrid” Layout 2006e Release Preliminary M. Woodley.

October 31, BDS Group1 ILC Beam Delivery System “Hybrid” Layout 2006e Release Preliminary M. Woodley.
January 10, 2007M. Woodley (SLAC)1 ILC Beam Delivery System “Interim Working Assumption” 2006e Release European LC Workshop, January 8-11 2007, Daresbury.

January 10, 2007M. Woodley (SLAC)1 ILC Beam Delivery System “Interim Working Assumption” 2006e Release European LC Workshop, January , Daresbury.
Emittance Growth from Elliptical Beams and Offset Collision at LHC and LRBB at RHIC Ji Qiang US LARP Workshop, Berkeley, April 26-28, 2006.

Emittance Growth from Elliptical Beams and Offset Collision at LHC and LRBB at RHIC Ji Qiang US LARP Workshop, Berkeley, April 26-28, 2006.
Karsten Büßer Beam Induced Backgrounds at TESLA for Different Mask Geometries with and w/o a 2*10 mrad Crossing Angle LCWS 2004 Paris April 19 th 2004.

Karsten Büßer Beam Induced Backgrounds at TESLA for Different Mask Geometries with and w/o a 2*10 mrad Crossing Angle LCWS 2004 Paris April 19 th 2004.
Page 1 Overview and Issues of the MEIC Interaction Region M. Sullivan MEIC Accelerator Design Review September 15-16, 2010.

Page 1 Overview and Issues of the MEIC Interaction Region M. Sullivan MEIC Accelerator Design Review September 15-16, 2010.
17 th November, 2008 LCWS08/ILC08 1 BDS optics and minimal machine study Deepa Angal-Kalinin ASTeC & The Cockcroft Institute Daresbury Laboratory.

17 th November, 2008 LCWS08/ILC08 1 BDS optics and minimal machine study Deepa Angal-Kalinin ASTeC & The Cockcroft Institute Daresbury Laboratory.
Interaction Region Backgrounds M. Sullivan for the MEIC Collaboration Meeting Oct. 5-7, 2015.

Interaction Region Backgrounds M. Sullivan for the MEIC Collaboration Meeting Oct. 5-7, 2015.
1 O. Napoly ECFA-DESY Amsterdam, April 2003 Machine – Detector Interface : what is new since the TDR ? O. Napoly CEA/Saclay.

1 O. Napoly ECFA-DESY Amsterdam, April 2003 Machine – Detector Interface : what is new since the TDR ? O. Napoly CEA/Saclay.
ILC-GDE Meeting Beijing Feb 20071 Effect of MDI Design on BDS Collimation Depth Frank Jackson ASTeC Daresbury Laboratory Cockcroft Institute.

ILC-GDE Meeting Beijing Feb Effect of MDI Design on BDS Collimation Depth Frank Jackson ASTeC Daresbury Laboratory Cockcroft Institute.
ILC luminosity optimization in the presence of the detector solenoid and anti-DID Reine Versteegen PhD Student CEA Saclay, Irfu/SACM International Workshop.

ILC luminosity optimization in the presence of the detector solenoid and anti-DID Reine Versteegen PhD Student CEA Saclay, Irfu/SACM International Workshop.

Similar presentations

Ads by Google