Contents INTRODUCTION
The design goal for the SNS ring is to accumulate 1.4.1014 protons per 1ms pulse at a 60Hz repetition rate. Achieving the design beam intensity with acceptable losses is a challenging task, which could be tackled more easily if reliable measurements of the beam profile in the ring are available. Very high beam power density precludes using wires or other interceptive devices for beam profile measurements at peak of stored current when information on the beam size is most important. Non-interceptive diagnostics using an electron beam probe has been successfully tested at several accelerators [1], [2] but with a beam parameters which are very different from that of the SNS ring (see Table 1). The goal of the present work was to investigate the feasibility of using this technique for the SNS ring, study the range of required electron beam parameters, find the fundamental limitations and choose an appropriate profile reconstruction algorithm. SNS proton ring beam parameters.
| Proton kinetic energy, | 1 GeV |
| Circumference, C | 248 m |
| Longitudinal distribution length | 160 m |
| Number of protons, N | 1.4. 1014 |
| Vacuum chamber radius, R | 0.1 m |
| Beam rms radius, | 0.01–0.02 1–0.02 m |
