Title :
Lattice options for a 5 GeV light source at Cornell
Author :
Bazarov, I.V. ; Hoffstaetter, G.H.
Author_Institution :
Cornell Univ., Ithaca, NY, USA
Abstract :
Cornell University has proposed an Energy Recovery Linac (ERL) based synchrotron-light facility which can provide improved X-ray radiation due to the high beam quality which is available from a linac. To additionally utilize beam currents that are competitive with ring-based light sources, the linac has to operate with the novel technique of energy recovery. Cornell plans to address the outstanding issues of high-current injector, higher-order mode damping and extraction from superconducting RF environment, etc. in a downscaled prototype ERL prior to submitting a proposal for a full-scale machine. The flexibility of linacs allows for different modes of operating the ERL X- ray source, each of which requires specific manipulations of longitudinal phase-space that restrict the choice of the lattice. Here we discuss the different proposed modes of operating the ERL X-ray source and present options for corresponding lattices.
Keywords :
X-ray production; accelerator RF systems; electron accelerators; linear accelerators; particle beam dynamics; particle beam extraction; particle beam injection; superconducting cavity resonators; synchrotron radiation; 5 GeV; Cornell University; ERL X- ray source; Energy Recovery Linac; X-ray radiation; beam currents; downscaled prototype ERL; extraction; full-scale machine; high beam quality; high-current injector; higher-order mode damping; lattice; longitudinal phase-space; ring-based light sources; superconducting RF environment; synchrotron-light facility; Acceleration; Bandwidth; Electron beams; Lattices; Light sources; Linear particle accelerator; Optical beams; Particle beams; Radio frequency; Undulators;
Conference_Titel :
Particle Accelerator Conference, 2003. PAC 2003. Proceedings of the
Print_ISBN :
0-7803-7738-9
DOI :
10.1109/PAC.2003.1289496
