The Emittance Growth Scaling Laws in Resonance Crossing X. Pang, F. Wang, X. Wang, S.Y. Lee IUCF, Indiana University K.Y. Ng Fermilab 1.
NuMI High-power Targetry fpr Future Accelerators Workshop September 8-12, 2003 NuMI Target: Today and Tomorrow Jim Hylen, Nikolai Mokhov / FNAL Page 1.
ESS-Bilbao Initiative Workshop. Design concepts of and lessons learned from the SINQ High Power Target Development Programme.
ESS Timing System Plans and Requirements Timo Korhonen Chief Engineer, Integrated Control System Division May 19, 2014.
The Current T2K Beam Window Design and Upgrade Potential Oxford-Princeton Targetry Workshop Princeton, Nov 2008 Matt Rooney.
Study of the Luminosity of LHeC, a Lepton Proton Collider in the LHC Tunnel CERN June 14 2006 F. Willeke, DESY.
KT McDonald Target Studies Weekly Meeting July 10, 2014 1 Power Deposition in Graphite Targets of Various Radii K.T. McDonald, J. Back, N. Souchlas July.
Assessment of beam-target interaction of IFMIF A state of the art J. Knaster a, D. Bernardi b, A. García c, F. Groeschel h, R. Heidinger d, M. Ida e, A.
HEP03 Advanced Neutrino Beams Rob Edgecock RAL. Candidates……. Conventional super beam Conventional super beam Neutrino Factory Neutrino Factory Beta beam.
Modelling shock in solid targets Goran Skoro (UKNF Collaboration, University of Sheffield) NuFact 06 UC Irvine, August 24-30, 2006.
Pion capture and transport system for PRISM M. Yoshida Osaka Univ. 2005/8/28 NuFACT06 at UCI.
Above: Energy deposition in the superconducting magnet and the tungsten-carbide shield inside them. Approximately 2.4 MW must be dissipated in the shield.