Title |
Other Keywords |
Page |
Thermal Limits on Wave Amplitude in the Plasma Wake-Field Accelerator |
background, electron, field, plasma |
124 |
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Stability of the Driving Bunch in the Plasma Wakefield Accelerator |
accelerator, field, instability, plasma |
127 |
- J.J. Su, P. Chen, J.M. Dawson, M. Jones, T. Katsouleas, R. Keinigs, S. Wilks
|
|
Electronics Design for the Fermilab Switchyard Beam Position Monitor System |
beam position monitor, cw, impedance, proton |
591 |
- R. Fuja, S. Childress, R. Janes, Q. Kerns, S. Lackey
|
|
Stacktail Momentum Cooling in the Fermilab Antiproton Source |
accelerator, antiproton, booster, feedback |
1132 |
- R.J. Pasquinelli, W. Hyslop, W. Kells, M. Kuchnir, J. Marriner, G. Mayer, J. McCarthy, S. Mtingwa, D. Peterson, R. Shafer
|
|
The Influence of Density Distribution on the Stability of Beams |
emittance, focusing, instability, ion |
1149 |
- F.W. Guy, P. M. Lapostolle, T.P. Wangler
|
|
Thermodynamic Mechanism for Bunch Lengthening |
equilibrium, field, radiation, synchrotron |
1155 |
|
|
Mechanical Design of a Large Bore Quadrupole Triplet Magnet |
alignment, field, quadrupole, vacuum |
1466 |
- S. Abbott, R. Caylor, E. Fong, J. Tanabe
|
|
Response to Operating Conditions of the SSC Magnet Using Nonlinear Finite Element Analysis |
Lorentz force, equilibrium, finite element, quench |
1483 |
- V.N. Karpenko, M. Zaslawsky
|
|
Aluminum Allloy DC Separators Using Heat Pipes for a e+e- Collider, TRISTAN |
field, radiation, vacuum, x-ray |
1552 |
- T. Momose, H. Ishimaru, K. Mori, T. Shintake, T. Suetsugu
|
|
An Electronic Level System for Rotating Magnets |
field, focusing, quadrupole, solenoid |
1555 |
- J. Kirchgessner, S. Herb, R. Siemann
|
|
Vacuum System Control for the Heavy Ion Transport Line |
booster, ion, monitoring, vacuum |
1627 |
- P. Stattel, I Feigenbaum, H.C. Hseuh, T. Robinson, R. Skelton, V. Wong
|
|
A Pulse Amplifier for Nuclear Instrumentation |
accelerator, feedback, impedance, instrumentation |
1633 |
|
|
Status and Issues of Superconducting RF Technology |
accelerator, electron, field, superconductivity |
1691 |
|
|
High-Powered, Solid-State RF Systems |
accelerator, cw, electron, radiation |
1701 |
|
|
Overview of Recent Focussing Horns for BNL Neutrino Program |
neutrino, proton, radiation, target |
1731 |
- A. Carroll, W. Leonhardt, R. Monaghan, C. Pearson, A. Pendzick, G. Ryan, J. Sandberg, W. Sims, G. Smith, P. Stillman, J. Walker
|
|
Assembly Techniques Used in Construction of Neutrino Horns at BNL |
focusing, neutrino, radiation, target |
1734 |
- W.P Sims, A. Carroll, W. Leonhardt, R. Monaghan, C. Pearson, A. Pendzick, G. Ryan, J. Sandberg, G. Smith, P. Stillman, J. Walker
|
|
The Neutrino Horn 300 Kiloampere Pulsed Power Supply at Brookhaven National Laboratory |
lifetime, neutrino, timing, vacuum |
1743 |
- J. Sandberg, A.S. Carroll, W. Leonhardt, R. Monaghan, C. Pearson, A. Pendzick, G. Ryan, W.P Sims, G.A. Smith, P. Stillman, J.C. Walker
|
|
Metallized Ceramic Vacuum Pipe for Particle Beams |
dielectric, hadron, impedance, vacuum |
1785 |
- B.L. Butler, M. Featherby
|
|
A Drift-Tube Linac Incorporating a Ramped Accelerating Field |
accelerator, field, linac, vacuum |
1797 |
- D. J. Liska, L.B. Dauelsberg
|
|
Field Emission Studies in Superconducting Cavities |
cryogenics, electron, field, rf cavities |
1824 |
- H. Padamsee, E. Frick, W. Hartung, R. Kahn, R. Noer, C. Reece
|
|
Heat Transfer and Thermal Stress Analysis of RF Structures Operated in Boiling Regime |
coupling, field, finite element, linac |
1827 |
|
|
High Power Behaviour of Ka Band Linac Structures |
coupling, impedance, linac, travelling wave |
1830 |
|
|
High-Temperature Annealing of Superconducting Cavities Fabricated from High Purity Niobium |
electron, field, residual gas, x-ray |
1833 |
|
|
Improvements in the Stability of the TRIUMF RF Resonator |
alignment, coupling, field, vacuum |
1839 |
- R. Worsham, D. Dohan, G. Dutto, K. Fong, V. Pacak, G. Stanford
|
|
Investigation of the Electromagnetic Fields in the SRS R.F. Cavity Window Aperture Using a Perturbation Technique |
dielectric, field, insertion, waveguide |
1842 |
|
|
Mechanical Design and Fabrication of a 425-MHz H- Buncher |
accelerator, electron, permanent-magnet, vacuum |
1851 |
- N.G. Wilson, D. Precechtel
|
|
Superconducting Performance of CEBAF/Cornell Prototype Cavities Fabricated by Babcock & Wilcox |
accelerator, electron, field, vacuum |
1887 |
- W. Bensiek, J. Dateo, J. Hager, H. Padamsee, W. Pruitt, P. Williams
|
|
Design Considerations, Construction and Performance of a SLED-Type Radiofrequency Pulse Compressor Using Very High Q Cylindrical Cavities |
booster, coupling, ion |
1931 |
- A. Fiebig, R. Hohbach, P. Marchand, J.O. Pearce
|
|
RF Cavity for TRISTAN Main Ring |
coupling, field, impedance, vacuum |
1945 |
- T. Higo, M. Akemoto, T. Kageyama, H. Mizuno, Y. Morozumi, H. Sakai, K. Takata, Y. Yamazaki
|
|
Test Results on a CEBAF/Cornell Prototype Superconducting Cavity Fabricated by TRW |
coupling, electron, field, vacuum |
1951 |
- S. Loer, J. Cirillo, E. Connor, H. Padamsee, P. Weller, W. Wong
|
|
Vacuum Characteristics of the RF Caviity for TRISTAN Main Ring |
cooling water, ion, spectrum, vacuum |
1957 |
- H. Mizuno, M. Akemoto, T. Higo, Y. Morozumi, S. Sakai, K. Takata, Y. Yamazaki
|
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