Yagmur Torun
(Illinois Institute of Technology)
28/07/2009, 14:00
Accelerator Physics
The MuCool program focuses on studying the components needed for a muon ionization cooling channel. These include normal-conducting RF cavities, liquid hydrogen and lithium hydride absorbers and superconducting solenoids. This talk will describe the facility that has been built at Fermilab to carry out this R and D, will outline the various aspects of the program and will give the latest...
Rolland Johnson
(Muons, Inc.)
28/07/2009, 14:30
Accelerator Physics
Inventions and synergies with global and national goals are rapidly improving the prospects for a high luminosity muon collider at the energy frontier. Analytical calculations, numerical simulations, and experimental measurements are coming together to make a strong case for a series of machines to be built, where each one is a precursor to the next, with its own unique experimental and...
giovanni bonvicini
(Wayne State University)
28/07/2009, 15:00
Accelerator Physics
Results from extended operation of the CESR Large Angle Beamstrahlung Monitor are presented.
Dr
Michael Syphers
(Fermi National Accelerator Laboratory)
28/07/2009, 15:30
Accelerator Physics
Dr
Pavel Snopok
(UC Riverside)
28/07/2009, 16:30
Accelerator Physics
In the current Muon Collider design the muon beam 6D phase space volume must be reduced several orders in magnitude in order to be able to further accelerate it and inject it into the storage ring. Ionization cooling is currently the only feasible option for cooling the beam within the muon lifetime. The RFOFO ring is one of the feasible options currently under active investigation along with...
Prof.
Peter McIntyre
(Texas A&M University)
28/07/2009, 17:00
Accelerator Physics
Recent developments in accelerator physics and super-conducting magnet technology make it reasonable to extend proton-antiproton colliding beams from the 2 TeV of the Tevatron to 100 TeV in the existing SSC tunnel, with luminosity ~10^35 /cm2s. At 100 TeV boson-boson fusion becomes a significant initial state for production of new massive particles. Petavac would extend the mass reach beyond...
Manfred Wendt
(Fermi Naional Accelerator Laboratory)
28/07/2009, 17:30
Accelerator Physics
Recent and upcoming particle accelerators for HEP, as well as for applied science demand a very high beam quality, e.g. high beam power in the multi MW range, focused beams at the IP to a size of a few nm, fsec range bunch length, low beam halo and tails, high beam stability, etc. To characterize, verify and improve these beam parameters, advances in beam instrumentation and diagnostics are...
Dr
Camille Ginsburg
(Fermi National Accelerator Laboratory)
28/07/2009, 18:00
Accelerator Physics
Abstract to appear here
