1 / 8

Long Trains, High Beam Loading

Long Trains, High Beam Loading. Possibilities for high-current long bunch train running at FLASH. Siegfried Schreiber DESY 9 mA reloaded DESY 14 April 2014. We have two similar lasers available. 2 independent Nd:YLF Systems L aser 1 1 MHz, no 3 MHz option Laser 2 1 MHz @ 10 Hz,

galvin-hatfield
Download Presentation

Long Trains, High Beam Loading

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Long Trains, High Beam Loading Possibilities for high-current long bunch train running at FLASH Siegfried Schreiber DESY 9 mA reloaded DESY 14 April 2014

  2. We have two similar lasers available • 2 independent Nd:YLF Systems • Laser 1 • 1 MHz, no 3 MHz option • Laser 2 • 1 MHz @ 10 Hz, • 3 MHz option @ 5 Hz Development Max-Born-Institute, Berlin in cooperation with DESY

  3. Pulse trains • The laser oscillators run at 108 MHz (laser 1) and 27 MHz (laser 2) • Pockels-cell 1 picks a 1 MHz train, always long ~ 1ms • Pockels-cell 2 picks what the operator likes to have, 1 – 800 bunches. Various intra-train rep.rates Laser 523 nm • 80 bunches, 100 kHz, 3 nC UV pulse train pre-amp 27 MHz Pulse train

  4. Pulse trains • The laser oscillators run at 108 MHz (laser 1) and 27 MHz (laser 2) • Pockels-cell 1 picks a 1 MHz train, always long ~ 1ms • Pockels-cell 2 picks what the operator likes to have, 1 – 800 bunches. Various intra-train rep.rates Laser 523 nm • 80 bunches, 100 kHz, 3 nC UV pulse train pre-amp 27 MHz Pulse train

  5. Laser 2 • Laser 2 runs with flat train, 3 MHz, 800 us length at 5 Hz Photodiodes: UV (262 nm) Green (532 nm) IR (1047 nm)

  6. Tests with 2 lasers for FLASH2 • Both lasers are simultaneously producing beam Laser 2 Laser 1 Bunch Charge(nC) SASE Energy (µJ)

  7. Options we have • Run laser 2 with 3 MHz @ 5 Hz • Run both lasers interleaved with 1 MHz @ 10 Hz • 2 MHz beam @ 10 Hz • Upgrade options: • Upgrade all four Pockels-cell drivers and power supplies to 4.5 MHz @ 10 Hz • Cost estimate: 50 kEuro • To be tested: is the power of the present amplifiers sufficient for the load increase of 4.5? 5 Hz? • At least 5 Hz should work. • Run one laser: 4.5 MHz beam @ 5 Hz • Run both lasers interleaved: 9 MHz beam @ 5 Hz • Other issues? MPS? ADCs? We need a few uTCA based diagnostics with 81 MHz ADCs.

  8. Trip issue: UV laser energy drops on MPS trip • Much reduced with new BBO’s • To be tested with 4.5 MHz beams • AOM UV pulse picker: upgrade to 4.5 MHz required Before a trip UV (262 nm) After a trip Green (532 nm) IR (1047 nm)

More Related