Presentation is loading. Please wait.

Presentation is loading. Please wait.

SIMPSONS: Convergence of the Space Charge simulations for RCS Noda Hotchi.

Published byHenry Reed Modified over 9 years ago

Similar presentations

Presentation on theme: "SIMPSONS: Convergence of the Space Charge simulations for RCS Noda Hotchi."— Presentation transcript:

1 SIMPSONS: Convergence of the Space Charge simulations for RCS Noda Hotchi

2 Simulation conditions Operation tune 6.72,6.35 (D-set) Output beam power :0.2MW Macro particle number :200000 With painting process (correlated painting) With multi-pole components (bend,Quad) No chromatic correction, 3rd resonance correction No alignment error and field error(K0,K1) ----------------------------------------------------------------- macroparticle, numpart=200000, & pc=0.6129113, & ldistrib=lunigaus, distribu=gaussian, & dssig=0.1, dppsig=0.0001, & exn=0.25E-06, eyn=0.25E-06, & betax=10.73958590, alphax=-1.639643595, & betay=11.33428017, alphay=0.4, & driftspace=0., sigmacut=4.0, xinjoff=0., & injectrn=235, painttra, constnum, & iseedlon=9236487, iseedtra=4857679, &

3 Free parameters of code and estimated parameters Free parameters of SIMPSONS –r :30,50,100 –θ :32,64,128 –z :30,50,100,150,200 –time step:4.7e-9, 9.4e-9, 18.7e-9, 4.7e-8 [sec] Estimated parameters –Beam loss Realistic physical aperture and primary collimator are set Aperture of primary collimator is 324 .mm.mrad –Emittance 38,68,90 and 95% emittance

4 r mesh number(nrg) dependence Beam loss curve38,68,90 and 95% emittance at 750turn

5  mesh number(nthg) dependence Beam loss38,68,90 and 95% emittance at 750turn

6 Conclusion(1) The current mesh sizes of r and θ (nrg=50,nthg=64) are good values for both qualitative and quantitative estimation.

7 Lngitudinal mesh number (nzg) dependence Beam loss38,68,90 and 95% emittance at 750turn

8 Conclusion(2) Mesh size of z is also good value for qualitative estimation. However, it may be insufficient for quantitative estimation of 95% emittance, as Sasha-san says. –We have chosen nzg = 100 for next stage of systematic studies. By this change, CPU time is increased about 12%(660s/turn→740s/turn), but it is acceptable…. –For the more detail estimations which selected carefully, we will use nzg=150 (CPU time30%up) or 200 (CPU time50~60%up).

9 tstep

10 And more … –We have to discuss the confidence of simulation result for a beam halo. Comparison of simulation results of different codes. Comparison of simulation result and experimental data. –It is very difficult to monitor a beam halo….

11

Download ppt "SIMPSONS: Convergence of the Space Charge simulations for RCS Noda Hotchi."

Similar presentations

Ring tuning spread 2 MW beam at 1 GeV – Space charge tune spread about 0.2 (green) – Chromatic tune spread must be controlled by sextupoles (red: beam.

Ring tuning spread 2 MW beam at 1 GeV – Space charge tune spread about 0.2 (green) – Chromatic tune spread must be controlled by sextupoles (red: beam.
Study of Resonance Crossing in FFAG Masamitsu Aiba (KEK) Contents 1.Introduction 2.Crossing experiment at PoP FFAG 3.Crossing experiment at HIMAC synchrotron.

Study of Resonance Crossing in FFAG Masamitsu Aiba (KEK) Contents 1.Introduction 2.Crossing experiment at PoP FFAG 3.Crossing experiment at HIMAC synchrotron.
Current Status of Virtual Accelerator at J-PARC 3 GeV Rapid Cycling Synchrotron H. Harada*, K. Shigaki (Hiroshima University in Japan), H. Hotchi, F. Noda,

Current Status of Virtual Accelerator at J-PARC 3 GeV Rapid Cycling Synchrotron H. Harada*, K. Shigaki (Hiroshima University in Japan), H. Hotchi, F. Noda,
Masahito TOMIZAWA and Satoshi MIHARA Accelerator and proton beam.

Masahito TOMIZAWA and Satoshi MIHARA Accelerator and proton beam.
Alexandr Drozhdin March 16, 2005 MI-10 Injection.

Alexandr Drozhdin March 16, 2005 MI-10 Injection.
Dr. Zafer Nergiz Nigde University THE STATUS OF TURKISH LIGHT SOURCE.

Dr. Zafer Nergiz Nigde University THE STATUS OF TURKISH LIGHT SOURCE.
Space Charge meeting – CERN – 09/10/2014

Space Charge meeting – CERN – 09/10/2014
July 22, 2005Modeling1 Modeling CESR-c D. Rubin. July 22, 2005Modeling2 Simulation Comparison of simulation results with measurements Simulated Dependence.

July 22, 2005Modeling1 Modeling CESR-c D. Rubin. July 22, 2005Modeling2 Simulation Comparison of simulation results with measurements Simulated Dependence.
E. Benedetto SC meeting 19/3/15 Update on the LIU curve emittance vs. intensity.

E. Benedetto SC meeting 19/3/15 Update on the LIU curve emittance vs. intensity.
GRD - Collimation Simulation with SIXTRACK - MIB WG - October 2005 LHC COLLIMATION SYSTEM STUDIES USING SIXTRACK Ralph Assmann, Stefano Redaelli, Guillaume.

GRD - Collimation Simulation with SIXTRACK - MIB WG - October 2005 LHC COLLIMATION SYSTEM STUDIES USING SIXTRACK Ralph Assmann, Stefano Redaelli, Guillaume.
Loss maps of RHIC Guillaume Robert-Demolaize, BNL CERN-GSI Meeting on Collective Effects, 2-3 October 2007 Beam losses, halo generation, and Collimation.

Loss maps of RHIC Guillaume Robert-Demolaize, BNL CERN-GSI Meeting on Collective Effects, 2-3 October 2007 Beam losses, halo generation, and Collimation.
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.
Virtual Accelerator at J-PARC 3 GeV Rapid Cycling Synchrotron H. Harada*, K. Shigaki (Hiroshima University in Japan), H. Hotchi, F. Noda, H. Sako, H. Suzuki,

Virtual Accelerator at J-PARC 3 GeV Rapid Cycling Synchrotron H. Harada*, K. Shigaki (Hiroshima University in Japan), H. Hotchi, F. Noda, H. Sako, H. Suzuki,
Particle dynamics in electron FFAG Shinji Machida KEK FFAG04, October 13-16, 2004.

Particle dynamics in electron FFAG Shinji Machida KEK FFAG04, October 13-16, 2004.
PS Booster Studies with High Intensity Beams Magdalena Kowalska supervised by Elena Benedetto Space Charge Collaboration Meeting 20-21 May 2014.

PS Booster Studies with High Intensity Beams Magdalena Kowalska supervised by Elena Benedetto Space Charge Collaboration Meeting May 2014.
RCS simulation 現状 と 今後 平成1 8 年 4 月14日 發知. Comparison with Machida’s result Machida’s result (6.72, 6.35) 181 INJ., 0.6 W/O CC W/ CC W/ Mult. of.

RCS simulation 現状 と 今後 平成1 8 年 4 月14日 發知. Comparison with Machida’s result Machida’s result (6.72, 6.35) 181 INJ., 0.6 W/O CC W/ CC W/ Mult. of.
Proton Driver: Status and Plans C.R. Prior ASTeC Intense Beams Group, Rutherford Appleton Laboratory.

Proton Driver: Status and Plans C.R. Prior ASTeC Intense Beams Group, Rutherford Appleton Laboratory.
After last meeting Matt, Riad and I discussed January energy choice…  Focus on Physics paper measurements  Focus on 5 MeV systematics  Pick “final”

After last meeting Matt, Riad and I discussed January energy choice…  Focus on Physics paper measurements  Focus on 5 MeV systematics  Pick “final”
Details of space charge calculations for J-PARC rings.

Details of space charge calculations for J-PARC rings.

Similar presentations

Ads by Google