Use this resource - and many more! - in your textbook!
AcademicPub holds over eight million pieces of educational content for you to mix-and-match your way.
SPEAR 3 upgrade project: the final year
By: Hettel, R.; Akre, R.; Allison, S.; Bellomo, P.; Boyce, R.; Cadapan, L.; Cassel, R.; Choi, B.; Corbett, W.; Dell'Orco, D.; Elioff, T.; Evans, I.; Fuller, R.; Hill, A.; Keeley, D.; Kurita, N.; Langton, J.; Leyh, G.; Limborg, C.; Macnair, D.; Martin, D.; Mcintosh, P.; Medvedko, E.; Ng, C.; Nzeadibe, I.; Olsen, J.; Ortega, M.; Pappas, C.; Park, S.; Rabedeau, T.; Rarback, H.; Ringwall, A.; Rodriguez, P.; Safranek, J.; Schwarz, H.; Scott, B.; Sebek, J.; Smith, S.; Straumann, T.; Tanabe, J.; Terebilo, A.; Trautwein, A.; Wermelskirchen, C.; Widmeyer, M.; Yotam, R.; Zuo, K.;
2003 / IEEE / 0-7803-7738-9
This item was taken from the IEEE Conference ' SPEAR 3 upgrade project: the final year ' During April, 2003, the SPEAR 2 storage ring, which served the high energy physics community from 1972 to 1987, and the synchrotron radiation community for an additional 15 years, was removed from its shielding tunnel in order to install the new 3-GeV, 500-mA SPEAR 3 light source. From May to November, SSRL will excavate the tunnel floor and pour a new concrete floor, and then install pre-assembled girders holding magnets, copper vacuum chambers, PEP-II-style rf cavities, and beam line front end components. At the same time, power supply, instrumentation and control, and other ancillary systems will be configured, leading to a commissioning period beginning in November 2003. The progress of accelerator component implementation and installation during the final year of the project will be reviewed.
Accelerator Rf Systems
Spear 3 Upgrade Project
Beam Line Front End Components