000928589 001__ 928589
000928589 003__ SzGeCERN
000928589 005__ 20161219100844.0
000928589 041__ $$aeng
000928589 100__ $$aSeidl, Peter
000928589 245__ $$aElectron and Gas Effects on Intense, Space-Charge Dominated Ion Beams in Magnetic Quadrupoles$$bComparison of Experiments and Simulations
000928589 260__ $$c2005
000928589 269__ $$c2005
000928589 500__ $$aManuscript not submitted to the proceedings
000928589 520__ $$aAccelerators for inertial fusion energy, high-energy density physics and other high intensity applications have an economic incentive to minimize the clearance between the beam edge and the aperture wall. This increases the risk from electron clouds and gas desorbed from walls. Using the High Current Experiment at LBNL, we have measured the beam (0.18 A, 1 MeV K+ ) distribution upstream and downstream of a short lattice of magnetic quadrupoles where the 2·rms beam size is =50% of the quadrupole aperture, and the generalized perveance is 10<sup><font size="-1">
000928589 595__ $$aSIS PAC05-2006
000928589 65017 $$2SzGeCERN$$aAccelerators and Storage Rings
000928589 690C_ $$aARTICLE
000928589 700__ $$aBaca, David
000928589 700__ $$aBieniosek, Frank
000928589 700__ $$aCohen, Ronald
000928589 700__ $$aCovo, Michel K
000928589 700__ $$aFriedman, Alex
000928589 700__ $$aGrote, D P
000928589 700__ $$aLund, Steven M
000928589 700__ $$aMolvik, Arthur
000928589 700__ $$aVay, Jean-Luc
000928589 901__ $$uLBNL, Berkeley
000928589 901__ $$uLLNL, Livermore, California
000928589 916__ $$sn$$w200606
000928589 960__ $$a13
000928589 961__ $$c20090302$$h1043$$lCER01$$x20060208
000928589 963__ $$aPUBLIC
000928589 962__ $$b719664$$ke-proc. FPAP015$$nknoxville20050516
000928589 970__ $$a002596436CER
000928589 980__ $$aARTICLE