The AECL Study for an Intense Neutron Generator: (technical Details) |
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Page 188
... electron beams are easier to produce than proton beams we shall use electrons . This means , incidentally , that RF power levels are consider- ably reduced . Second , since the 50 MHz SOC cavity is an enormous structure we have elected ...
... electron beams are easier to produce than proton beams we shall use electrons . This means , incidentally , that RF power levels are consider- ably reduced . Second , since the 50 MHz SOC cavity is an enormous structure we have elected ...
Page 190
... electron analogue case . me / mp is the ratio of the electron to proton mass . Equality of the ratio of the energy extracted from the cavity by each pulse to the total stored energy for the SOC cavity and the analogue determines the ...
... electron analogue case . me / mp is the ratio of the electron to proton mass . Equality of the ratio of the energy extracted from the cavity by each pulse to the total stored energy for the SOC cavity and the analogue determines the ...
Page 8
... electrons to a kinetic energy of approximately 5 MeV , and that electron beams would be provided to drive sets of eight cavities . To provide power sufficient to accelerate 65 mA of protons in twenty turns in a Super - SOC by 800 MeV , ...
... electrons to a kinetic energy of approximately 5 MeV , and that electron beams would be provided to drive sets of eight cavities . To provide power sufficient to accelerate 65 mA of protons in twenty turns in a Super - SOC by 800 MeV , ...
Common terms and phrases
accelerator activity amplifier beam current beam dump beam splitter beam transport system beam tube beryllium calculations cavity walls circuit cobalt COIL components concrete cooling cost cross-section Cyclotron D₂O deflection deuterium diameter dump effect electron estimated fast neutrons fission flight path frequency gradient heat exchanger high energy increase injector inner irradiation length linac liquid metal load loop machine magnetic field material meson moderator tank modes multipactoring muons neutron flux nuclear nucleons operation orbit output parameters particles Pb-Bi phase pions piping pole tip problems produced proton beam pulse pump radiation radius reactor reference design resonance RF cavities scattering sector shielding spallation stage steel structure surface Table target tube temperature thermal neutron thermal neutron facility thick tunnel vacuum vertical voltage width y-ray yield yoke Zircaloy zirconium