J. E. Mann
Oak Ridge National Laboratory
11 Papers
41 Citations
J. E. Mann is an academic researcher from Oak Ridge National Laboratory. The author has contributed to research in topics: Cyclotron & Beam (structure). The author has an hindex of 4, co-authored 11 publications.
Chat about Author
Papers
Four‐Sector Azimuthally Varying Field Cyclotron
H. G. Blosser,R. E. Worsham,C. D. Goodman,R.S. Livingston,J. E. Mann,H. M. Moseley,G. T. Trammel,T. A. Welton +7 more
TL;DR: An electron model relativistic fixed-frequency cyclotron of the azimuthally varying field type has been constructed for the purpose of testing the orbit dynamics of such a device as discussed by the authors.
13
Beam characteristics in cyclotron Analogue II
J. A. Martin,J. E. Mann +1 more
TL;DR: In this paper, the beam characteristics of the eight-sector fixed-frequency electron cyclotron, Analogue II, were analyzed and the tendency for the beam to move away from the median plane near maximum radius and the large amplitude axial motion at the sum coupling resonance v r + v z = 2, were both associated with a distorted median plane.
6
Status report on the holifield heavy ion research facility
C.M. Jones,G.D. Alton,James B. Ball,J.A. Benjamin,J. A. Biggerstaff,K.A. Erb,E. D. Hudson,R.C. Juras,P. K. Kloeppel,R. S. Lord,C. A. Ludemann,J. E. Mann,J. A. Martin,S. W. Mosko,E.G. Richardson,R.O. Sayer,N.F. Ziegler +16 more
TL;DR: The Holifield Heavy Ion Research Facility has been in routine operation since July 1982 as discussed by the authors and has been used as an energy booster for the tandem accelerator and the Oak Ridge Isochronous Cyclotron.
4
Separated-sector cyclotron post-accelerator for the Oak Ridge Heavy Ion Laboratory
S. W. Mosko,E. D. Hudson,R. S. Lord,M. L. Mallory,J. E. Mann,J. A. Martin,G. S. McNeilly,James B. Ball,K. N. Fischer,L. L. Riedinger,R.L. Robinson +10 more
- 01 Jan 1975
TL;DR: In this paper, a separated sector cyclotron post-accelerator was proposed for the Oak Ridge Heavy Ion Laboratory (ORIC), which has a field-radius product of 2540 kG-cm, a 4-sector configuration and azimuthal pole width of 52°.
The 4-MeV Separated-Orbit Cyclotron
J. A. Martin,L.N. Howell,E. D. Hudson,R.S. Livingston,J. E. Mann,S. W. Mosko,E. G. Richardson,R. E. Worsham,N.F. Ziegler +8 more
TL;DR: The Separated-Orbit Cyclotron Experiment (SOCE) at the University of Southern California (USC) will provide a unique facility for the evaluation of an operating cyclotron system as mentioned in this paper.