Add to ORKGIn this paper I present a simple lattice suitable for a Superconducting Super Collider (super-super). This super-super lattice is designed for storage of 20-TeV protons using bending magnets with peak fields of B = 2.1 T. The low-field value is chosen so that the present work may complement presentations of highfield lattices (5 T and 6.5 T) given elsewhere at this workshop, and so that this lattice may be used as a working tool to identify field-dependent aspects of the accelerator design
Modern synchrotron light sources are competing intensively to increase x-ray brightness and, eventua...
Rapid cycling synchrotrons are used to accelerate high-intensity proton beams to energies of tens of...
A proton synchrotron dedicated to medicaluse with the maximum energy of 250MeV has been designed. A ...
This lecture introduces storage-ring lattice desing. Applying the formalism that has been establishe...
Recently, it has been suggested that improved technology and reduced costs in remotely-drilled small...
proposed to be built as a spallation neutron source at Centre for Advanced Technology. A lattice wit...
This is a description of a prototype lattice for a {mu}-{mu} collider. It is not intended to be a fi...
We describe a lattice for accelerating muons from 375 GeV to 750 GeV. The lattice is a fast-ramping ...
The goal of this manuscript is to give an introduction into the design of the magnet lattice and as ...
The theoretical minimum emittance (TME) for a storage ring is given if both the horizontal betatron ...
Long arc cells would lead to major cost savings in a high field high T{sub c} hadron collider, opera...
The lattice for the future MAX-IV storage rings at MAX-Lab has been studied. The MAX IV facility con...
A set of eight test lattices for the SSC have been devised for such purposes as the investigation of...
A conceptual lattice design for a very compact superron-ducting synchrotron dedicated to x-ray litho...
The goal of the proposed Neutron Science Project ( NSP) at JAERI is to provide a short pulsed proton...
Modern synchrotron light sources are competing intensively to increase x-ray brightness and, eventua...
Rapid cycling synchrotrons are used to accelerate high-intensity proton beams to energies of tens of...
A proton synchrotron dedicated to medicaluse with the maximum energy of 250MeV has been designed. A ...
This lecture introduces storage-ring lattice desing. Applying the formalism that has been establishe...
Recently, it has been suggested that improved technology and reduced costs in remotely-drilled small...
proposed to be built as a spallation neutron source at Centre for Advanced Technology. A lattice wit...
This is a description of a prototype lattice for a {mu}-{mu} collider. It is not intended to be a fi...
We describe a lattice for accelerating muons from 375 GeV to 750 GeV. The lattice is a fast-ramping ...
The goal of this manuscript is to give an introduction into the design of the magnet lattice and as ...
The theoretical minimum emittance (TME) for a storage ring is given if both the horizontal betatron ...
Long arc cells would lead to major cost savings in a high field high T{sub c} hadron collider, opera...
The lattice for the future MAX-IV storage rings at MAX-Lab has been studied. The MAX IV facility con...
A set of eight test lattices for the SSC have been devised for such purposes as the investigation of...
A conceptual lattice design for a very compact superron-ducting synchrotron dedicated to x-ray litho...
The goal of the proposed Neutron Science Project ( NSP) at JAERI is to provide a short pulsed proton...
Modern synchrotron light sources are competing intensively to increase x-ray brightness and, eventua...
Rapid cycling synchrotrons are used to accelerate high-intensity proton beams to energies of tens of...
A proton synchrotron dedicated to medicaluse with the maximum energy of 250MeV has been designed. A ...