| { | |
| "id": "BeamlineICAP18IJMPA", | |
| "url": "https://www.bmtdynamics.org/cgi-bin/display.pl?name=BeamlineICAP18IJMPA", | |
| "title": "Dynamical Simulations of the Muon Campus at Fermilab", | |
| "pdfs": [ | |
| { | |
| "url": "https://www.bmtdynamics.org/pub/papers/BeamlineICAP18IJMPA/BeamlineICAP18IJMPA.pdf", | |
| "filename": "BeamlineICAP18IJMPA.pdf", | |
| "size_bytes": null | |
| } | |
| ], | |
| "page_text": "Publications\nReprint Server\nDynamical Simulations of the Muon Campus at Fermilab\nAbstract\nThe Muon Campus at Fermilab is a system through which muons are delivered to the\r\nstorage ring of the Muon\ng−2\nExperiment (E989). It consists of a set of 1 km\r\nbeamlines that transport and prepare a highly polarized muon beam out of secondaries\r\nproduced downstream a target station. Realistic simulations of this beam delivery\r\nsystem (BDS) using COSY INFINITY, and presented here, contribute to the\r\nunderstanding and characterization of the muon beam production in relation to the\r\nstatistical and systematic uncertainties of the E989 measurement, intended to be\r\nsmaller than 0.14 parts per million to achieve the goals of the experiment. The impact\r\nof nonlinearities from fringe fields and high-order contributions on the BDS\r\nperformance are presented, as well as detailed studies of the interactions between\r\nsecondaries and the beamline elements apertures, particle decay channels, spin\r\ndynamics and beamline misalignments.\nD. Tarazona, M. Berz, K. Makino, D. Stratakis, M. J. Syphers,\nInt. Journal of Modern Physics A\n,\n34, 36\n(2019) 1942033.\nDOI: 10.1142/S0217751X19420338\nDownload\nClick on the icon to download the corresponding file.\nDownload Adobe PDF version (1036649 Bytes).\nGo Back\nto the reprint server.\nGo Back\nto the home page.\nThis page is maintained by\nKyoko Makino\n. Please contact her if there are any problems with it." | |
| } |