Title :
Trapped macroparticles in electron storage rings
Author :
Zimmermann, F. ; Seeman, J.T. ; Zolotorev, M. ; Stoeffl, W.
Author_Institution :
Stanford Linear Accel. Center, Stanford Univ., CA, USA
Abstract :
Sudden drops of the beam lifetime ascribed to the capture of positively charged macroparticles (`dust´) are observed at many high-energy electron storage rings. A trapped macroparticle has a certain thermal lifetime due to energy transfer from the beam; the interplay of different ionizing and discharging processes gives rise to an equilibrium charge. The beam lifetime is reduced by bremsstrahlung both in the field of the atomic nuclei and in the macroscopic field of the highly charged dust particle. Recent observations at some storage rings can be explained by the capture of a single macroparticle of about micron size, possibly made from silicon dioxide. In the two B factories under construction, PEP-II and TRISTAN-II, trapped macroparticles will be thermally unstable and explode after a few tens of microseconds, thanks to the much higher beam current as compared with other storage rings
Keywords :
bremsstrahlung; colliding beam accelerators; electron accelerators; particle beam stability; storage rings; B factories; PEP-II; SiO2; TRISTAN-II; beam lifetime sudden drops; beam stability; bremsstrahlung; discharging processes; energy transfer; equilibrium charge; high-energy electron storage rings; highly charged dust particle; ionizing processes; positively charged macroparticles capture; thermal lifetime; trapped macroparticles; Atomic beams; Electron beams; Electron traps; Energy exchange; Particle beams; Production facilities; Silicon compounds; Storage rings; Structural beams; Thermal factors;
Conference_Titel :
Particle Accelerator Conference, 1995., Proceedings of the 1995
Conference_Location :
Dallas, TX
Print_ISBN :
0-7803-2934-1
DOI :
10.1109/PAC.1995.504705
