March 21, 2017 - Radio-isotope test
Beam requirements
1. What energy or energy range do you want (is this total, kinetic), and if a range what step size or resolution is practically useful?
- We'd like to have kinetic energy at least 18 MeV, and under 18.5 MeV (18.5 preferable), with a resolution (sigma) of at least 20 keV.
media:170321_radioisotopeenergies.xlsx
2. How well do you need to know the mean energy of #1 (not energy spread), just mean energy?
- 20keV
3. Is energy spread an issue, and if yes - is this value similar to #2?
- Yes.
4. What is the beam spot size or aspect ratio you would like to have at the radiator, and if a limit is important or a range is desired, please say so?
- Under 3x3 mm sigma
5. How well do you need to know the beam size, aspect or profile, maybe this is an issue for your diagnostics?
- Accuracy of beam size and stability about 1 mm
6. How precisely do you need to set the beam position at the radiator, how will you do this?
- 1 mm, use the beam profile scanner just upstream
7. How much position jitter or instability is acceptable, this might be an important point?
- 3x3 mm
8. What is the beam intensity you will use at the energies in #1, is this cw or peak?
- 50 uA CW
9. Are there limits on how much beam or beam intensity can be used when setting up on the radiator, e.g. limit so not to contribute to your result?
- Pulsed beam if possible, at a reasonable intensity
10. What else?
- None