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- Check permanent and variable filtering (flippies) for cameras in laser room – Laser cameras and alignment references
- Check permanent and variable filtering (flippies) for cameras in tunnel – Laser cameras and alignment references
- Determine safe set of motor positions for everything in the PB – Motor positions
- Fix hole size for laser shutter enclosures
- Write up procedure/check list
- Find an reliable energy controlling method:
- Use wave plate + thin film polarizatior. This will have to test the minimum achievable energy using such combination (ideally <10mJ), and test the damage threshold of the polarizor
- Measure change in collimation as function of pump delay (SAGA attenuation, WP+thin film polariser?)? – or come up with strategy to enable slow ramp up of energy without RP attenuator
- Figure out how to send beam at lower repetition rate
- Fix the panels for laser shutter - a high power beam with diffraction profile may cause some harzard to the gratings
- Check with Spencer on how to use the DAQ for laser-only operation, e.g. to save CompNear/Far, PBNear/Far and probe cameras simultaneously, scan waveplate etc.
During ramp up
- Attenuate laser and gradually ramp up
- Check light levels on all cameras, look out for abnormalities that indicate damage
- Check vacuum levels as beam is dumped on compressor block
- Check vacuum levels as beam is dumped on laser beam dump in PB
- Check for damage, signs of ablation etc. around compressor block and laser beam dump in PB
- Check if scaling on laser diagnostics matches expected energy scaling (for on-shot energy measurement)
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