Add to ORKGThe existing superconducting linac ATLAS is in many respects an ideal secondary beam accelerator for an ISOL (Isotope separator on-line) type radioactive beam facility. Such a facility would require the addition of two major accelerator elements: a low charge state injector for the existing heavy ion linac, and a primary beam accelerator providing 220 MV of acceleration for protons and light ions. Development work for both of these elements, including the option of superconducting cavities for the primary beam accelerator is discussed
The Argonne Tandem Linear Accelerator System (ATLAS) has been operating on a twenty-four hour, seven...
The Nuclear Science Community in the Unites States has unanimously concluded that developments in bo...
A next generation radioactive beam facility, the Rare Isotope Accelerator (RIA), is in preparation i...
Abstract The existing superconducting linac ATLAS is in many respects an ideal secondary beam accele...
Since the superconducting heavy ion linac ATLAS is an ideal post-accelerator for radioactive beams, ...
This paper discusses the front-end of the secondarylinac portion of a proposed ISOL-type radioactive...
There is considerable interest worldwide in the research which could be done at a next generation, a...
The Argonne concept for an accelerator complex for efficiently producing high-quality radioactive be...
The Argonne concept for an accelerator complex for efficiently producing high-quality radioactive be...
There is considerable interest worldwide in the research which could be done at a next generation, a...
There is considerable interest worldwide in the research which could be done at a next generation, a...
The Argonne Tandem Linac Accelerator System (ATLAS) is a superconducting low-energy heavy ion accele...
The design of a low-charge-state linac which is capable of accelerating, for example, 132Sn1+ for i...
ATLAS is now the only US DOE National User Facility for low-energy heavy-ion stable beams. With the ...
The planned positive-ion injector for ATLAS consists of an ECR ion source on a 350-kV platfrom and a...
The Argonne Tandem Linear Accelerator System (ATLAS) has been operating on a twenty-four hour, seven...
The Nuclear Science Community in the Unites States has unanimously concluded that developments in bo...
A next generation radioactive beam facility, the Rare Isotope Accelerator (RIA), is in preparation i...
Abstract The existing superconducting linac ATLAS is in many respects an ideal secondary beam accele...
Since the superconducting heavy ion linac ATLAS is an ideal post-accelerator for radioactive beams, ...
This paper discusses the front-end of the secondarylinac portion of a proposed ISOL-type radioactive...
There is considerable interest worldwide in the research which could be done at a next generation, a...
The Argonne concept for an accelerator complex for efficiently producing high-quality radioactive be...
The Argonne concept for an accelerator complex for efficiently producing high-quality radioactive be...
There is considerable interest worldwide in the research which could be done at a next generation, a...
There is considerable interest worldwide in the research which could be done at a next generation, a...
The Argonne Tandem Linac Accelerator System (ATLAS) is a superconducting low-energy heavy ion accele...
The design of a low-charge-state linac which is capable of accelerating, for example, 132Sn1+ for i...
ATLAS is now the only US DOE National User Facility for low-energy heavy-ion stable beams. With the ...
The planned positive-ion injector for ATLAS consists of an ECR ion source on a 350-kV platfrom and a...
The Argonne Tandem Linear Accelerator System (ATLAS) has been operating on a twenty-four hour, seven...
The Nuclear Science Community in the Unites States has unanimously concluded that developments in bo...
A next generation radioactive beam facility, the Rare Isotope Accelerator (RIA), is in preparation i...