Difference between revisions of "Bubble Chamber Beam Test May 2018"
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= '''Bubble Chamber Turn On''' = | = '''Bubble Chamber Turn On''' = | ||
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* '''Fill with natural C<sub>3</sub>F<sub>8</sub> – test bubble chamber systems operation''' | * '''Fill with natural C<sub>3</sub>F<sub>8</sub> – test bubble chamber systems operation''' | ||
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# Measure neutron events in chamber. Neutron radiation detectors in injector region will indicate if any neutrons are generated | # Measure neutron events in chamber. Neutron radiation detectors in injector region will indicate if any neutrons are generated | ||
− | + | = [[Beam Setup and Measurement - May 2018]] = | |
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= '''Bubble Chamber Beam Test''' = | = '''Bubble Chamber Beam Test''' = |
Revision as of 09:11, 9 May 2018
Bubble Chamber Turn On
- Fill with natural C3F8 – test bubble chamber systems operation
- With beam on bubble chamber radiator:
- How does CCD camera perform under beam-on conditions?
- Count rates on bubble chamber. Do we get single or multiple bubbles from Bremsstrahlung beam exposure?
- Measure gamma ray beam spatial profile as reflected by bubble distribution. Is collimator effective in defining the gamma-ray beam?
- Test the bubble chamber laser shutter (gumby shutter)
- Background measurements:
- Measure beam off environmental background in chamber-injector area
- Measure beam on background by looking outside fiducial volume
- Measure background with beam to Faraday Cup in CEBAF beamline (about two meters from chamber)
- Measure neutron events in chamber. Neutron radiation detectors in injector region will indicate if any neutrons are generated
Beam Setup and Measurement - May 2018
Bubble Chamber Beam Test
- Bubble Chamber Run Plan
- Draft Run Plan: media:bubble_runplan_May2018.pdf
- Systematics:media:bubble_systematics_May2018.pdf
- (Joe) Dispersive and Non-Dispersive Optics for last week's beam study data
Run Plan:
- Check if Bubble Chamber is working properly:
- Start with K.E. of 5.25 MeV
- Determine the initial operational pressure and temperature
- Measure bubble rate. The expected rate is 1 bubble per sec at 10 µA
- Measure rate vs beam current (0.01, 0.1 and 1.0 µA)
- Measure the number of bubbles for 30 minutes per beam current
Beam Kinetic Energy (MeV) | Beam Current (µA) | Time (hour) |
4.75 | 50 | 34 |
4.85 | 50 | 41 |
4.95 | 20 | 13 |
5.05 | 10 | 5 |
5.15 | 5 | 2 |
5.25 | 1 | 1 |
- Presentations
- MCC 8 am presentation