Abstract
An intense ion accelerator has been proposed and now is being developed in which accelerating and focusing electric fields in a slow wave structure are excited by an intense electron beam using the anomalous and the normal Doppler effects. The results of theoretical studies and computer simulations show the advantage of this acceleration method that will make it possible to obtain acceleration rates of the order of 10 - 100 MeV/m, and ion beam energies and currents of the order of 10-100 MeV, 1-10 A. The project and technical documentation of an experimental accelerating installation were worked out. Currently, the 5 MeV accelerator-injector URAL-5 is in operation; preliminary experiments on a small installation have been carried out; experimental investigations of an accelerating RF resonator model (in 1/2 scaling) are being performed; the accelerating test installation is being manufactured. (author). 1 tab. 12 fig., 6 refs.
Egorov, A M;
Ivanov, B I;
Butenko, V I;
Ognivenko, V V;
Onishchenko, I N;
Prishchepov, V P
[1]
- Kharkov Inst. of Physics and Technology (Ukraine)
Citation Formats
Egorov, A M, Ivanov, B I, Butenko, V I, Ognivenko, V V, Onishchenko, I N, and Prishchepov, V P.
The state of development of an intense resonance electron-ion accelerator based on Doppler effect.
Czech Republic: N. p.,
1996.
Web.
Egorov, A M, Ivanov, B I, Butenko, V I, Ognivenko, V V, Onishchenko, I N, & Prishchepov, V P.
The state of development of an intense resonance electron-ion accelerator based on Doppler effect.
Czech Republic.
Egorov, A M, Ivanov, B I, Butenko, V I, Ognivenko, V V, Onishchenko, I N, and Prishchepov, V P.
1996.
"The state of development of an intense resonance electron-ion accelerator based on Doppler effect."
Czech Republic.
@misc{etde_510888,
title = {The state of development of an intense resonance electron-ion accelerator based on Doppler effect}
author = {Egorov, A M, Ivanov, B I, Butenko, V I, Ognivenko, V V, Onishchenko, I N, and Prishchepov, V P}
abstractNote = {An intense ion accelerator has been proposed and now is being developed in which accelerating and focusing electric fields in a slow wave structure are excited by an intense electron beam using the anomalous and the normal Doppler effects. The results of theoretical studies and computer simulations show the advantage of this acceleration method that will make it possible to obtain acceleration rates of the order of 10 - 100 MeV/m, and ion beam energies and currents of the order of 10-100 MeV, 1-10 A. The project and technical documentation of an experimental accelerating installation were worked out. Currently, the 5 MeV accelerator-injector URAL-5 is in operation; preliminary experiments on a small installation have been carried out; experimental investigations of an accelerating RF resonator model (in 1/2 scaling) are being performed; the accelerating test installation is being manufactured. (author). 1 tab. 12 fig., 6 refs.}
place = {Czech Republic}
year = {1996}
month = {Dec}
}
title = {The state of development of an intense resonance electron-ion accelerator based on Doppler effect}
author = {Egorov, A M, Ivanov, B I, Butenko, V I, Ognivenko, V V, Onishchenko, I N, and Prishchepov, V P}
abstractNote = {An intense ion accelerator has been proposed and now is being developed in which accelerating and focusing electric fields in a slow wave structure are excited by an intense electron beam using the anomalous and the normal Doppler effects. The results of theoretical studies and computer simulations show the advantage of this acceleration method that will make it possible to obtain acceleration rates of the order of 10 - 100 MeV/m, and ion beam energies and currents of the order of 10-100 MeV, 1-10 A. The project and technical documentation of an experimental accelerating installation were worked out. Currently, the 5 MeV accelerator-injector URAL-5 is in operation; preliminary experiments on a small installation have been carried out; experimental investigations of an accelerating RF resonator model (in 1/2 scaling) are being performed; the accelerating test installation is being manufactured. (author). 1 tab. 12 fig., 6 refs.}
place = {Czech Republic}
year = {1996}
month = {Dec}
}