Paper |
Title |
Other Keywords |
Page |
MPPB001 |
Insertion Device Vacuum Chamber for the Linac Coherent Light Source |
vacuum |
824 |
|
- Soon-Hong Lee, P. Den Hartog, E. Trakhtenberg (ANL)
|
|
MPPB003 |
New Insertion Device Vacuum Chambers at the Advanced Photon Source |
accelerator, vacuum |
830 |
|
- E. Trakhtenberg, B. Brajuskovic, P. Den Hartog, G. Wiemerslage (ANL)
|
|
MPPB004 |
Dual Canted Undulators at the Advanced Photon Source |
beamline, synchrotron-radiation, x-ray |
833 |
|
- P. Den Hartog, G. Decker, L. Emery (ANL)
|
|
MPPB010 |
Lifetime Reduction due to Insertion Devices at BESSYII |
dynamic-aperture, lifetime, light source, tune |
845 |
|
- J. Feikes (Cornell University), G. Wüstefeld (BESSY)
|
|
MPPG006 |
A Magnetic Field Model for Wigglers and Undulators |
Hamiltonian systems, non-linear-dynamics, undulator, wiggler |
1023 |
|
- D. Sagan, J. Crittenden, D.L. Rubin (Cornell University), E. Forest (KEK)
|
|
MPPG008 |
Status of the DIAMOND Insertion Devices |
undulator, wiggler |
1029 |
|
- J.A. Clarke, N. Bliss, D.G. Clarke, F.E. Hannon, C. Hill, A.A. Muir, D.J. Scott (Daresbury Laboratory), V. Francis (Rutherford Appleton Laboratory)
|
|
MPPG013 |
Calculation of the Coherent Synchrotron Radiation Impedance from a Wiggler |
coherent-effects, impedance, synchrotron-radiation, wakefield |
1038 |
|
- J. Wu, T.O. Raubenheimer, G.V. Stupakov (SLAC)
|
|
MPPG014 |
Design of a Revolving Helical Staggered Undulator |
undulator |
1041 |
|
- C.H. Chang, T.C. Fan, C.S. Hwang, G.H. Luo, Ch. Wang (Synchrotron Radiation Research Center)
|
|
MPPG015 |
Operational Experience of the Insertion Devices and Expectation of the Future Superconducting Wigglers at NSRRC |
|
1044 |
|
- H.P. Chang, C.H. Chang, J. Chen, K.T. Hsu, C.S. Hwang, C.H. Kou, C.C. Kuo, G.H. Lou (Synchrotron Radiation Research Center)
|
|
MPPG016 |
Magnetic Field Measurement on Superconducting Multipole Wiggler with Narrow Duct |
magnetic measurements, superconducting magnet, wiggler |
1047 |
|
- T.C. Fan, C.H. Chang, M.H. Huang, C.S. Hwang, F.Y. Lin (Synchrotron Radiation Research Center)
|
|
MPPG017 |
Commissioning of Two New Insertion Devices at ELETTRA |
superconducting magnet, synchrotron-radiation, undulator, wiggler |
1050 |
|
- D. Zangrando, S. Di Mitri, B. Diviacco, C. Knapic, L. Tosi (Sincrotrone Trieste)
|
|
MPPG018 |
CAMD Low Beta Configuration for 7 Tesla Wiggler |
optics, superconducting magnet, synchrotron-radiation, wiggler |
1053 |
|
- M. Fedurin, B. Craft, G. Vignola (Center for Advanced Microstructures and Devices)
|
|
MPPG019 |
Period Length Optimization for the LNLS Undulator |
light source, magnet-design, polarization, synchrotron-radiation |
1056 |
|
- X.R. Resende (Laboratório Nacional de Luz Sìncrotron, Brazil)
|
|
TOAB004 |
Novel Insertion Devices |
undulator |
156 |
|
|
|
TOAB007 |
Production and Testing Considerations for CESR-c Wiggler Magnets |
magnet-design, magnetic measurements, superconducting magnet |
167 |
|
- D. Rice, S. Chapman, R. Gallagher, Y. He, J. Kandaswamy, V. Medjidzade, A. Mikhailichenko, N.B. Mistry, T. Moore, S. Richichi, K. Smolenski, A. Temnykh, W. Trask (Cornell University)
|
|
TOPA001 |
The Canadian Light Source |
booster, lattice, light source, magnet-design |
220 |
|
- L. Dallin, I. Blomqvist, D. Lowe, M. Silzer, M. de Jong (Canadian Light Source)
|
|
TOPA013 |
In-Vacuum Undulators at ESRF |
magnetic measurements, permanent-magnet, undulator, vacuum |
253 |
|
- J. Chavanne, C. Penel, B. Plan, F. Revol (European Synchrotron Radiation Facility)
|
|
WOAB004 |
Nonlinear Dynamics in the Duke Storage Ring with FEL Wigglers |
dynamic-aperture, storage-ring, wiggler |
391 |
|
- Y.K. Wu, J. Li, V. Litvinenko, S.F. Mikhailov (Duke University)
|
|
WPAB087 |
ID Modeling at the ALS |
light source, non-linear-dynamics, wiggler |
2249 |
|
- D. Robin, H. Nishimura, C. Steier, W. Wan (LBNL), Y.K. Wu (Duke University), E. Forest (KEK)
|
|
WPPE024 |
Control System for the Superconducting Insertion Devices of NSRRC |
controls, superconducting magnet |
2376 |
|
- K.T. Hsu, C.K. Chang, J. Chen, S.-Y. Hsu, K.H. Hu, C.S. Hwang, C.H. Kuo, Demi Lee (Synchrotron Radiation Research Center)
|
|