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UED at ASTA: LLRF and triggers Need < 100 fs jitter Currently we measure > 500 fs RMS phase noise in 10 Hz to 10 MHz bandwidth at 476 MHz Excessive phase.

Published byCurtis Jasper Pierce Modified over 9 years ago

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Presentation on theme: "UED at ASTA: LLRF and triggers Need < 100 fs jitter Currently we measure > 500 fs RMS phase noise in 10 Hz to 10 MHz bandwidth at 476 MHz Excessive phase."— Presentation transcript:

1 UED at ASTA: LLRF and triggers Need < 100 fs jitter Currently we measure > 500 fs RMS phase noise in 10 Hz to 10 MHz bandwidth at 476 MHz Excessive phase noise is due to the dirty reference from LCLS (which conveniently provides triggers synced to PG&E zero crossing) Suggested improvements: – Import clean 119/476 MHz from linac – Local source with local trigger generation

2 Courtesy J. Dusatko

3 Fiber from LCLS

4 476 MHz from PLL noise measurement Locked 562 fsec RMS jitter Unlocked 50 fsec RMS jitter

5 Clean 119 MHz from LI30 Relic of E-144 FFTB experiment: TW laser synced to beam time with 0.5 ps stability – Recomission LI30 RF fiber optic diode laser transmitter (30 mW laser hazard) – Adapt to standard SLC fiber – Fiber patch LI30 to B44 – Relocate the receiver (from B407) No need for a new timing system!

6 Local source, local triggers (cut the cord) The unlocked PLL has a relatively clean 476 MHz source (LCLS comparable) Still need triggers: Rebuild/borrow spare HW to reproduce LCLS fiducial generation in the klystron test lab Independence from LCLS timing outages

7 Courtesy J. Dusatko, D. van Winkle

8 LINAC triggers

9 Courtesy J. Dusatko

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