Presentation is loading. Please wait.

Presentation is loading. Please wait.

Collective effects in EDM storage ring A.Sidorin, Electron cooling group, JINR, Dubna.

Published byBrian Holt Modified over 8 years ago

Similar presentations

Presentation on theme: "Collective effects in EDM storage ring A.Sidorin, Electron cooling group, JINR, Dubna."— Presentation transcript:

1 Collective effects in EDM storage ring A.Sidorin, Electron cooling group, JINR, Dubna

2 The ring parameters Beam emittance and tune shift Optimum particle number Intrabeam scattering in EDM ring

3 Ya. K. Semertzidis, 13 January

4 The ring and beam parameters Circumference, m25.798564 Transition gamma 1 (  p = 1) Betatron tunes hor/vert0.650014/ 1.183 Mean beta-functions hor/vert, m6.924971348/ 3.805011264 Mean dispersion, m10.65357261 Deuteron momentum, GeV/c1.5 RF harmonic number40 (~360 MHz) Total number of particles10 12 Number of particles in bunch 2.5  10 10

5 Resonance method of deuteron EDM measurement (Yu. Orlov) The deuteron velocity is modulated with the spin rotation frequency In average the vertical component of spin increases in time proportionally to the EDM:

6 Bunch parameters M. Blaskiewicz Rms momentum spread 3.5  10 -3 Rms bunch length, cm8.11 Effective RF voltage, MV1500 Bunching factor (I mean /I max )0.4

7 Beam emittance and tune shift 95% emittances  mm  mrad hor/vert 90/90 Rms emittances  mm  mrad hor/vert 15/15 Tune shift hor=vert0.0155 Maximum tune-shift for a Gaussian distribution, where  is 95% emittance

8 Limitations for tune shift Betatron motion stability (  Q  0.1) Coherent stability ( ) As in usual rings: To exclude general systematic errors: Fast modulation of the vertical betatron frequency, one half of the beam is operated at tune Peculiarity of EDM experiment:

9 Optimum particle number

10 Intrabeam scattering in EDM ring -Ring is operated over transition energy -Large mean dispersion -Large variations of beta function D=0 z =0 Alfredo Luccio n = 1

11 Heating rates Collision integrals in PRF Bjorken-Mtingwa theory

12 FOM for IBS Over transition energy

13 1/  x, s -1 0.002189304497 1/  y, s -1 9.221239402E-6 1/  z, s -1 7.765313344E-6 Initial growth rates (BETACOOL program, Martini model)

14 Conclusions Tune spread is limited mainly by method used for systematic correction Tune spread and particle number define the beam emittance Depolarization time depends on the emittance and optimum particle number is determined by statistics Increase of emittance leads to increase of price At optic design FOM for IBS has to be minimized

Download ppt "Collective effects in EDM storage ring A.Sidorin, Electron cooling group, JINR, Dubna."

Similar presentations

Note: most of the slides shown here are picked from CERN accelerator workshops. Please refer to those workshop for further understanding of the accelerator.

Note: most of the slides shown here are picked from CERN accelerator workshops. Please refer to those workshop for further understanding of the accelerator.
Application of cooling methods at NICA project G.Trubnikov JINR, Dubna.

Application of cooling methods at NICA project G.Trubnikov JINR, Dubna.
Dr. Zafer Nergiz Nigde University THE STATUS OF TURKISH LIGHT SOURCE.

Dr. Zafer Nergiz Nigde University THE STATUS OF TURKISH LIGHT SOURCE.
Initial Calculations of Intrabeam Scattering life times in ELIC lattices by Betacool code Chaivat Tengsirivattana CASA, Jefferson Lab University of Virginia.

Initial Calculations of Intrabeam Scattering life times in ELIC lattices by Betacool code Chaivat Tengsirivattana CASA, Jefferson Lab University of Virginia.
ALPHA Storage Ring Indiana University Xiaoying Pang.

ALPHA Storage Ring Indiana University Xiaoying Pang.
Electron and Ion Spin Dynamics in eRHIC V. Ptitsyn Workshop on Polarized Sources, Targets and Polarimetry Charlottesville, VA, 2013.

Electron and Ion Spin Dynamics in eRHIC V. Ptitsyn Workshop on Polarized Sources, Targets and Polarimetry Charlottesville, VA, 2013.
Sergey Antipov, University of Chicago Fermilab Mentor: Sergei Nagaitsev Injection to IOTA ring.

Sergey Antipov, University of Chicago Fermilab Mentor: Sergei Nagaitsev Injection to IOTA ring.
Thomas Jefferson National Accelerator Facility Operated by the Southeastern Universities Research Association for the U.S. Department of Energy Issues.

Thomas Jefferson National Accelerator Facility Operated by the Southeastern Universities Research Association for the U.S. Department of Energy Issues.
COULOMB ’05 Experiments with Cooled Beams at COSY A.Lehrach, H.J.Stein, J. Dietrich, H.Stockhorst, R.Maier, D.Prasuhn, V.Kamerdjiev, COSY, Juelich, I.Meshkov,

COULOMB ’05 Experiments with Cooled Beams at COSY A.Lehrach, H.J.Stein, J. Dietrich, H.Stockhorst, R.Maier, D.Prasuhn, V.Kamerdjiev, COSY, Juelich, I.Meshkov,
Simulation of direct space charge in Booster by using MAD program Y.Alexahin, N.Kazarinov.

Simulation of direct space charge in Booster by using MAD program Y.Alexahin, N.Kazarinov.
3 GeV,1.2 MW, Booster for Proton Driver G H Rees, RAL.

3 GeV,1.2 MW, Booster for Proton Driver G H Rees, RAL.
Intra-beam Scattering Study for Low Emittance of BAPS S.K.Tian(IHEP)

Intra-beam Scattering Study for Low Emittance of BAPS S.K.Tian(IHEP)
1 Machine Advisory Committee Video-Conference JINR, Dubna May 20, 2009 Concept and Status of The NICA Project Nuclotron-based Ion Collider fAcility I.Meshkov.

1 Machine Advisory Committee Video-Conference JINR, Dubna May 20, 2009 Concept and Status of The NICA Project Nuclotron-based Ion Collider fAcility I.Meshkov.
Fast Ion Instability Studies in ILC Damping Ring Guoxing Xia DESY ILCDR07 meeting, Frascati, Mar. 5~7, 2007.

Fast Ion Instability Studies in ILC Damping Ring Guoxing Xia DESY ILCDR07 meeting, Frascati, Mar. 5~7, 2007.
Comparison between NLC, ILC and CLIC Damping Ring parameters May 8 th, 2007 CLIC Parameter working group Y. Papaphilippou.

Comparison between NLC, ILC and CLIC Damping Ring parameters May 8 th, 2007 CLIC Parameter working group Y. Papaphilippou.
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.
Simulation of direct space charge in Booster by using MAD program Y.Alexahin, A.Drozhdin, N.Kazarinov.

Simulation of direct space charge in Booster by using MAD program Y.Alexahin, A.Drozhdin, N.Kazarinov.
Electron Model for a 3-10 GeV, NFFAG Proton Driver G H Rees, RAL.

Electron Model for a 3-10 GeV, NFFAG Proton Driver G H Rees, RAL.
Preliminary results on simulation of fast-ion instability at 3 km LBNL damping ring 21 April 2005 Pohang Accelerator Laboratory Eun-San Kim.

Preliminary results on simulation of fast-ion instability at 3 km LBNL damping ring 21 April 2005 Pohang Accelerator Laboratory Eun-San Kim.

Similar presentations

Ads by Google