Abstract
The ATLAS accelerator consists of a HVEC model FN tandem accelerator injecting into a linac of independently-phased niobium superconducting resonators. The accelerator provides beams with masses 6 {le} A {le} 127 and with energies ranging up to 20 MeV/A for the lightest ions and 4 MeV/A for the heaviest ions. Portions of the linac have been in operation since 1978 and, over the last decade, more than 35000 h of operating experience have been accumulated. The long-term stability of niobium resonators, and their feasibility for use in heavy-ion accelerators is now well established. (orig.).
Den Hartog, P K;
Bogaty, J M;
Bollinger, L M;
Clifft, B E;
Craig, S L;
Harden, R E;
Markovich, P;
Munson, F H;
Nixon, J M;
Pardo, R C;
Phillips, D R;
Shepard, K W;
Tilbrook, I R;
Zinkmann, G P
[1]
- Argonne National Lab., IL (USA). Physics Div.
Citation Formats
Den Hartog, P K, Bogaty, J M, Bollinger, L M, Clifft, B E, Craig, S L, Harden, R E, Markovich, P, Munson, F H, Nixon, J M, Pardo, R C, Phillips, D R, Shepard, K W, Tilbrook, I R, and Zinkmann, G P.
Operational experience of the ATLAS accelerator.
Netherlands: N. p.,
1990.
Web.
Den Hartog, P K, Bogaty, J M, Bollinger, L M, Clifft, B E, Craig, S L, Harden, R E, Markovich, P, Munson, F H, Nixon, J M, Pardo, R C, Phillips, D R, Shepard, K W, Tilbrook, I R, & Zinkmann, G P.
Operational experience of the ATLAS accelerator.
Netherlands.
Den Hartog, P K, Bogaty, J M, Bollinger, L M, Clifft, B E, Craig, S L, Harden, R E, Markovich, P, Munson, F H, Nixon, J M, Pardo, R C, Phillips, D R, Shepard, K W, Tilbrook, I R, and Zinkmann, G P.
1990.
"Operational experience of the ATLAS accelerator."
Netherlands.
@misc{etde_5780646,
title = {Operational experience of the ATLAS accelerator}
author = {Den Hartog, P K, Bogaty, J M, Bollinger, L M, Clifft, B E, Craig, S L, Harden, R E, Markovich, P, Munson, F H, Nixon, J M, Pardo, R C, Phillips, D R, Shepard, K W, Tilbrook, I R, and Zinkmann, G P}
abstractNote = {The ATLAS accelerator consists of a HVEC model FN tandem accelerator injecting into a linac of independently-phased niobium superconducting resonators. The accelerator provides beams with masses 6 {le} A {le} 127 and with energies ranging up to 20 MeV/A for the lightest ions and 4 MeV/A for the heaviest ions. Portions of the linac have been in operation since 1978 and, over the last decade, more than 35000 h of operating experience have been accumulated. The long-term stability of niobium resonators, and their feasibility for use in heavy-ion accelerators is now well established. (orig.).}
journal = []
volume = {287:1/2}
place = {Netherlands}
year = {1990}
month = {Feb}
}
title = {Operational experience of the ATLAS accelerator}
author = {Den Hartog, P K, Bogaty, J M, Bollinger, L M, Clifft, B E, Craig, S L, Harden, R E, Markovich, P, Munson, F H, Nixon, J M, Pardo, R C, Phillips, D R, Shepard, K W, Tilbrook, I R, and Zinkmann, G P}
abstractNote = {The ATLAS accelerator consists of a HVEC model FN tandem accelerator injecting into a linac of independently-phased niobium superconducting resonators. The accelerator provides beams with masses 6 {le} A {le} 127 and with energies ranging up to 20 MeV/A for the lightest ions and 4 MeV/A for the heaviest ions. Portions of the linac have been in operation since 1978 and, over the last decade, more than 35000 h of operating experience have been accumulated. The long-term stability of niobium resonators, and their feasibility for use in heavy-ion accelerators is now well established. (orig.).}
journal = []
volume = {287:1/2}
place = {Netherlands}
year = {1990}
month = {Feb}
}