Presentation is loading. Please wait.

Presentation is loading. Please wait.

Tolerances on magnetic field along the beamlines from accelerator physics point of view Tentative, suggested for discussion at IRENG07 WG-D meeting, August.

Published byCorey Bennett Modified over 6 years ago

Similar presentations

Presentation on theme: "Tolerances on magnetic field along the beamlines from accelerator physics point of view Tentative, suggested for discussion at IRENG07 WG-D meeting, August."— Presentation transcript:

1 Tolerances on magnetic field along the beamlines from accelerator physics point of view
Tentative, suggested for discussion at IRENG07 WG-D meeting, August 15, 2007

2 Background information
Magnetic field along the detector axis or along the beamline cause Y shift of the IP position and beam size growth via coupling and other terms In details this is considered (for somewhat different parameters and optics) at Phys. Rev. ST Accel. Beams 8, (2005)

3 Effects from short 0.5T*m solenoid placed on detector axis

4 Summary of effects For older version of optics and old parameters, the effects from 0.5 T*m (or 5000 Gs*m) along the detector axis for Z>10m are, roughly: coupling term ~20 IP orbit offset ~10microns The offset is to be compared with ¼ sigma or 1nm of maximum tolerable bunch-to-bunch jitter in the train with 300ns between bunches about 100nm of train-to-train offset which intratrain feedback could comfortably capture (0.2s between trains) roughly 10nm which intratrain feedback could follow with time-constant of ~100 bunches (0.03ms) for duration of the train (1ms) The coupling effect should be compared with desired tuning stability time, say 10 hours (coupling term 0.2 would give 2% effect on beam size)

5 Tolerances for magnetic field on the beamline outside detector, tentative
Time scale, max integrated field: 300ns < 0.5 Gs*m 0.03ms to 1ms < 5 Gs*m 0.2 s < 50 Gs*m up to 10 hrs < 50 Gs*m

Download ppt "Tolerances on magnetic field along the beamlines from accelerator physics point of view Tentative, suggested for discussion at IRENG07 WG-D meeting, August."

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.
4.1/9.1m L* Optics & Performance Glen White, SLAC SiD Meeting, SLAC Jan 13, 2015.

4.1/9.1m L* Optics & Performance Glen White, SLAC SiD Meeting, SLAC Jan 13, 2015.
On Cavity Tilt + Gradient Change (Beam Dynamics) 2010.09.08 K. Kubo K. Kubo.

On Cavity Tilt + Gradient Change (Beam Dynamics) K. Kubo K. Kubo.
Study of the Luminosity of LHeC, a Lepton Proton Collider in the LHC Tunnel CERN June 14 2006 F. Willeke, DESY.

Study of the Luminosity of LHeC, a Lepton Proton Collider in the LHC Tunnel CERN June F. Willeke, DESY.
Electron-cloud instability in the CLIC damping ring for positrons H. Bartosik, G. Iadarola, Y. Papaphilippou, G. Rumolo TWIICE workshop, 16.01.2014 TWIICE.

Electron-cloud instability in the CLIC damping ring for positrons H. Bartosik, G. Iadarola, Y. Papaphilippou, G. Rumolo TWIICE workshop, TWIICE.
Damping ring K. Ohmi LC Layout Single tunnel Circumference 6.7 km Energy 5 GeV 2 km 35 km.

Damping ring K. Ohmi LC Layout Single tunnel Circumference 6.7 km Energy 5 GeV 2 km 35 km.
CESR-c Status CESR Layout - Pretzel, Wigglers, solenoid compensation Performance to date Design parameters Our understanding of shortfall Plans for remediation.

CESR-c Status CESR Layout - Pretzel, Wigglers, solenoid compensation Performance to date Design parameters Our understanding of shortfall Plans for remediation.
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.
Global Design Effort Detector concept # Plenary introductory talk IRENG07 Name September 17, 2007.

Global Design Effort Detector concept # Plenary introductory talk IRENG07 Name September 17, 2007.
Luminosity Prospects of LHeC, a Lepton Proton Collider in the LHC Tunnel DESY Colloquium May 23 2006 F. Willeke, DESY.

Luminosity Prospects of LHeC, a Lepton Proton Collider in the LHC Tunnel DESY Colloquium May F. Willeke, DESY.
1 27 Sep 05 Discussion of anti-DID ( “DIDNT” ? ) A.Seryi September 27, 2005.

1 27 Sep 05 Discussion of anti-DID ( “DIDNT” ? ) A.Seryi September 27, 2005.
Ground Motion + Vibration Transfer Function for Final QD0/SD0 Cryomodule System at ILC Glen White, SLAC ALCPG11, Eugene March 21, 2011.

Ground Motion + Vibration Transfer Function for Final QD0/SD0 Cryomodule System at ILC Glen White, SLAC ALCPG11, Eugene March 21, 2011.
ATF2 optics … 1 3 rd Mini-Workshop on Nano Project at ATF ATF2 optics, tuning method and tolerances of initial alignment, magnets, power supplies etc.

ATF2 optics … 1 3 rd Mini-Workshop on Nano Project at ATF ATF2 optics, tuning method and tolerances of initial alignment, magnets, power supplies etc.
BPM Orbit Data Analysis with Wakefields Glen White, SLAC January 2013.

BPM Orbit Data Analysis with Wakefields Glen White, SLAC January 2013.
NLC Intra-Pulse Fast Feedback Simon Jolly Oxford University NLC Beam Delivery Meeting July 2001.

NLC Intra-Pulse Fast Feedback Simon Jolly Oxford University NLC Beam Delivery Meeting July 2001.
1 IR with elliptical compensated solenoids in FCC-ee S. Sinyatkin Budker Institute of Nuclear Physics 13 July 2015, CERN.

1 IR with elliptical compensated solenoids in FCC-ee S. Sinyatkin Budker Institute of Nuclear Physics 13 July 2015, CERN.
DESY GDE Meeting Global Design Effort 1 / 12 Status of RTML Design and Tuning Studies PT SLAC.

DESY GDE Meeting Global Design Effort 1 / 12 Status of RTML Design and Tuning Studies PT SLAC.
Beam dynamics on damping rings and beam-beam interaction Dec. 28 2004 포항 가속기 연구소 김 은 산.

Beam dynamics on damping rings and beam-beam interaction Dec 포항 가속기 연구소 김 은 산.
October 4-5, 2010 1 Electron Lens Beam Physics Overview Yun Luo for RHIC e-lens team October 4-5, 2010 Electron Lens.

October 4-5, Electron Lens Beam Physics Overview Yun Luo for RHIC e-lens team October 4-5, 2010 Electron Lens.
DESY: From High Energy Physics to Synchrotron Radiation Accelerator Operation in a changing Environment Michael Bieler DESY: From High Energy Physics to.

DESY: From High Energy Physics to Synchrotron Radiation Accelerator Operation in a changing Environment Michael Bieler DESY: From High Energy Physics to.

Similar presentations

Ads by Google