Add to ORKGThe main features of the tandem-linac system for heavy-ion acceleration are reviewed and illustrated in terms of the technology and performance of the superconducting heavy-ion energy booster at Argonne. This technology is compared briefly with the corresponding technologies of the superconducting linac at Stony Brook and the room-temperature linac at Heidelberg. The performance possibilities for the near-term future are illustrated in terms of the proposed extension of the Argonne booster to form ATLAS
This paper is a general review of superconducting low-b technology and applications from its beginni...
This report summarizes the research performed in the past year in the Argonne Physics Division. The ...
A post linac is being designed for an energy upgrade of a heavy-ion injector. This post linac is to ...
Activities concerned with the upgrading of final ion energies at existing Tandem facilities by the a...
We report about the possibilities of a Tandem MP accelerator as injector in a post-accelerator. Afte...
The Argonne Tandem Linear Accelerator System (ATLAS) has been operating on a twenty-four hour, seven...
The objective of the proposed Argonne Tandem-Linac Accelerator System (ATLAS) is to provide precisio...
This paper reports the status of hardware development for the linac portion of the Argonne tandem-li...
The planned positive-ion injector for ATLAS consists of an ECR ion source on a 350-kV platfrom and a...
Après avoir discuté les propriétés des faisceaux d'ions lourds, nous décrivons les moyens dont nous ...
The Argonne Tandem Linac Accelerator System (ATLAS) is a superconducting low-energy heavy ion accele...
The possibility of simultaneously accelerating particles with a range of charge-to-mass ratios (~20%...
We describe the present status of the State University of New York at Stony Brook Superconducting He...
ATLAS (the Argonne Tandem Linac Accelerator System) is a super conducting heavy ion accelerator whic...
A new positive ion injector (PII) is currently under construction at Argonne that will replace the e...
This paper is a general review of superconducting low-b technology and applications from its beginni...
This report summarizes the research performed in the past year in the Argonne Physics Division. The ...
A post linac is being designed for an energy upgrade of a heavy-ion injector. This post linac is to ...
Activities concerned with the upgrading of final ion energies at existing Tandem facilities by the a...
We report about the possibilities of a Tandem MP accelerator as injector in a post-accelerator. Afte...
The Argonne Tandem Linear Accelerator System (ATLAS) has been operating on a twenty-four hour, seven...
The objective of the proposed Argonne Tandem-Linac Accelerator System (ATLAS) is to provide precisio...
This paper reports the status of hardware development for the linac portion of the Argonne tandem-li...
The planned positive-ion injector for ATLAS consists of an ECR ion source on a 350-kV platfrom and a...
Après avoir discuté les propriétés des faisceaux d'ions lourds, nous décrivons les moyens dont nous ...
The Argonne Tandem Linac Accelerator System (ATLAS) is a superconducting low-energy heavy ion accele...
The possibility of simultaneously accelerating particles with a range of charge-to-mass ratios (~20%...
We describe the present status of the State University of New York at Stony Brook Superconducting He...
ATLAS (the Argonne Tandem Linac Accelerator System) is a super conducting heavy ion accelerator whic...
A new positive ion injector (PII) is currently under construction at Argonne that will replace the e...
This paper is a general review of superconducting low-b technology and applications from its beginni...
This report summarizes the research performed in the past year in the Argonne Physics Division. The ...
A post linac is being designed for an energy upgrade of a heavy-ion injector. This post linac is to ...