Section |
Title |
Author |
| 4 |
BEAM TRANSPORT |
|
| 4.1 |
Accumulator Ring Scope and Performance Requirements |
Weng |
| 4.2 |
Design Choices |
Weng |
| 4.3 |
Accumulator Ring Lattice and Accelerator Physics Design |
|
|
4.3.1 Lattice Design of the Accumulator Ring |
Lee |
|
4.3.2 H- Charge Exchange Injection |
Blumberg |
|
4.3.3 RF Stacking and Space Charge Tune Speed |
Luccio |
|
4.3.4 Impedance, Coherent Instabilities and Damping |
Luccio |
| 4.4 |
System Design Parameters |
|
|
4.4.1 High Energy Beam Transport System |
Raparia |
|
4.4.2 Injection System |
Lee |
|
4.4.3 Magnet System |
Tuozzolo |
|
4.4.4 Power Supply System |
Soukas |
|
4.4.5 Vacuum System |
Hseuh |
|
4.4.6 RF System |
|
|
4.4.7 Diagnostic Instrumentation |
Witkover |
|
4.4.8 Collimation and Shielding |
Ludewig |
|
4.4.9 Extraction System |
Soukas |
|
4.4.10 Control System |
Smith |
|
4.4.11 Ring to Target Beam Transport System |
Raparia |
| 4.5 |
Interface Criteria |
Weng |
|
4.5.1 Linac-to-Ring Interface Criteria |
Raparia |
|
4.5.2 Ring-to-Target Criteria |
Raparia |
| 4.6 |
RAM Considerations |
Weng |
| 4.7 |
Methods of Accomplishment |
Weng |
| 4.8 |
R&D Program |
Weng |
| 4.9 |
Upgrade Paths |
Weng |
