Fermilab FERMILAB - CONF - 07 - 416 - APC August 2007 MARS 15 CODE IN ACCELERATOR APPLICATIONS
نویسندگان
چکیده
MAD-MARS Beam-Line Builder (MMBLB) is a tool that helps MARS15 build models of accelerator lattices and beam lines using the MAD-generated optics descriptions. This mode is especially powerful in beam loss, collimation, backgrounds and shielding studies at the existing and new accelerators and beam transport lines. Many applications works using this tool have been performed such as Main Injector and Tevatron at Fermilab, Large Hadron Collider (LHC) at CERN, 3GeV-RCS at J-PARC, and International Linear Collider (ILC). The paper describes the basics of MMBLB using various simple beam-line examples to help users understand better. Also, focusing on realistic studies of collimation and shielding, a few representative MMBLB applications are described here especially for a 350-m proton ring of J-PARC 3GeV-RCS and a 1.6-km long 250-GeV positron beam line of the ILC beam delivery system (BDS).
منابع مشابه
FERMILAB - Conf - 04 / 053 - AD April 2004 RECENT ENHANCEMENTS TO THE MARS 15 CODE
The MARS code is under continuous development and has recently undergone substantial improvements that further increase its reliability and predictive power in numerous shielding, accelerator, detector and space applications. The major developments and new features of the MARS15 (2004) version described in this paper concern an extended list of elementary particles and arbitrary heavy ions and ...
متن کاملF Fermi National Accelerator Laboratory FERMILAB - Conf - 99 / 113 - T Beam Motions Near Separatrix
متن کامل
F Fermi National Accelerator Laboratory FERMILAB - Conf - 99 / 156 - E CDF Higgs Searches in Run 2 at the Tevatron
متن کامل
Theory and Suppression of Multibunch Beam Breakup in Linear Colliders
An analytic theory of cumulative multibunch beam breakup in linear colliders is developed. Included is a linear variation of transverse focusing across the bunch train as might be applied, e.g., by chirping the radiofrequency power sources or by using radiofrequency quadrupole magnets. The focusing variation saturates the exponential growth of the beam breakup and establishes an algebraic decay...
متن کامل