Zgoubi

Zgoubi is simulation code for physics applications that calculates trajectories of charged particles in magnetic and electric fields. It facilitates the study of complex sequences of optical elements like dipoles, quadrupoles, arbitrary multipoles, FFAG magnets and other magnetic or electric devices, as well as different periodic structures. It is also capable of performing calculation of the trajectories of charged particles in beam lines, rings, cyclotrons, etc., and modeling spin, synchrotron radiation, in-flight decay, and Monte Carlo procedures. It was primarily developed by Francois Meot in association with the Collider-Accelerator Department at Brookhaven National Laboratory.

Sirepo/Zgoubi Examples (must be registered user to access examples)

• AGS Booster
• Electron Model FFA Ring
• EMMA
• EMMA
• ESRF Ring
• FFA on Closed Orbit
• GSI KAOS Spectrometer with TOSCA
• Los Alamos Proton Storage Ring
• Los Alamos Proton Strorage Ring 2
• SATURNE 3 GeV Synchrotron
• Spiral FFA on Closed Orbit

Zgoubi Further References

• RadiaSoft Webinar Series featuring Zgoubi
• Zgoubi Users' Guide

U.S. Department of Energy Support

• Sirepo development has been supported by the U.S. Department of Energy Office of Science under multiple awards: By the office of High Energy Physics under Award Nos. DE-SC0011340, DE-SC0015897, and DE-SC0018719. By the office of Basic Energy Sciences under Award Nos. DE-SC0011237, DE-SC0015209, DE-SC0018556, and DE-SC0018571. By the office of Nuclear Physics under Award Nos. DE-SC0015212 and DE-SC0017181. By the office of Advanced Scientific Computing Research under Award Nos. DE-SC0017162 and DE-SC0017057. Sirepo has also been funded in part with Federal funds from the National Cancer Institute, National Institutes of Health, Department of Health and Human Services, under Contract No. 75N91019C00053 and with partial support from RadiaSoft LLC and from Sirepo customers.