Paper |
Title |
Other Keywords |
Page |
B16 |
Design and Construction of a Low Current, Cryogenically Efficient Beam Line Quadrupole
|
vacuum, instrumentation, cryogenics, power-supply |
79 |
|
- A.F. Zeller, J.C. DeKamp, M.J. Dubois, J.A. Nolen, R.T. Swanson
NSCL, East Lansing, Michigan, USA
|
|
B18 |
A Proposed Superferric Combined Function Magnet
|
dipole, vacuum, beam-transport, kaon |
85 |
|
- D.E. Lobb, P.A. Reeve
TRIUMF, Vancouver, B.C., Canada
|
|
D02 |
Invited Paper: The Use of Superconducting Magnets in Spectrographs and Beam Transport Systems
|
dipole, cyclotron, superconducting-magnet, cryogenics |
215 |
|
- J.A. Nolen
NSCL, East Lansing, Michigan, USA
|
|
J15 |
Implementation of a Computer -Controlled Monitoring System at the Princeton AVF Cyclotron
|
ion, controls, cyclotron, ion-source |
389 |
|
- W.H. Moore
Princeton University, Princeton, New Jersey, USA
|
|
J18 |
Status of the NSCL Coupling Line
|
dipole, cyclotron, coupling, emittance |
399 |
|
- L.H. Harwood, J.A. Nolen, H.G. Blosser
NSCL, East Lansing, Michigan, USA
|
|
J22 |
Beam Transmission Efficiency Between Injector and Target in the GANIL Complex
|
emittance, betatron, cyclotron, target |
415 |
|
- R. Beck, B. Bru, C. Ricaud
GANIL, Caen, France
|
|
J25 |
Concepts of Operation for the Magnet Spectrometer Big Karl
|
target, controls, dipole, multipole |
424 |
|
- J. Meissburger, G.P.A. Berg, W. Hürlimann, S.A. Martin, J.G.M. Römer
KFA, Jülich, Germany
|
|