Femtosecond-stability delivery of synchronized RFsignals to the klystron gallery over 1-km optical fibers
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1 FEL 2014 August 28, 2014 THB03 Femtosecond-stability delivery of synchronized RFsignals to the klystron gallery over 1-km optical fibers Kwangyun Jung 1, Jiseok Lim 1, Junho Shin 1, Heewon Yang 1, Heung-Sik Kang 2, and Chang-Ki Min 2, Jungwon Kim 1 * 1 Korea Advanced Institute of Science and Technology (KAIST), Daejeon, South Korea 2 Pohang Accelerator Laboratory (PAL), Pohang, South Korea
2 Why do we need XFEL? Synchrotron (3 rd generation) XFEL (4 th generation) X-ray with extremely short wavelength and high brilliance can capture molecular structures. - Billion times higher peak brilliance than synchrotron - Ultra short pulse (tens of fs) Not only the molecular structures, but also dynamics can be captured. Protein structure by Swiss Light Source (D. A. Pomeranz Krummel, C.Oubridge et al. Nature 458, ) Still frames of a molecular complex transition by LCLS (Credit: Shibom Basu/Arizona State University)
3 For much higher temporal resolution, timing synchronization system is very important in XFEL.
4 Fully pulsed optical timing system J. Kim et al, Nature Photonics 2, 733 (2008) - Timing detection using ultra short pulse -> extremely high resolution and low drift - Strong electron beam diagnostic tools can be used (BAM). - Various RF/microwave components and optical pulse trains can be simultaneously used. - Direct pump/probe experiment is possible.
5 Pulsed optical timing and synchronization system overview Phase noise OMO <OMO Room> RMO Fiber length stabilization TC- Pump probe laser Optical-Xray experiment undulator RMO synch OMO fs-laser f symmetric splitter ter Fiber length stabilization Fiber length stabilization Timing transfer over 100 m to 1 km Diagnostic tools (BAM) OM-PD GHz voltage-controlled oscillator LINAC (cavities) e-gun TC- Fiber length stabilization injector laser
6 Pulsed optical timing system is being operated at FEL facilities. FERMI FERMI BOM-PD FERMI and FLASH Feedback RF master oscillator (RMO) Optical master oscillator (OMO) Fiber length stabilization Optical master oscillator (OMO) FLASH TC- Feedback Ti:Sa laser S. Schulz et al, IBIC 2013, Paper WEPC32 S. Schulz et al, PAC 2009, Paper TH6REP091 Each unit currently being installed at FLASH (Hamburg, Germany) and Elettra (Trieste, Italy) However, the full implementation of OMO vs remote RF synchronization has not been demonstrated so far. M. Ferianis, PAC 2009
7 We perform full RMO vs remote RF synchronization. <OMO room> <Klystron gallery> To pzt 238 MHz optical master oscillator Loop filter FLOM-PD Cable duct Loop filter FLOM-PD GHz RF master oscillator GHz voltage-controlled oscillator
8 Optical/RF synchronization method Fiber-Loop Optical-Microwave Phase Detector (FLOM-PD) Excess phase noise in the photodetection process is suppressed. Laser intensity noise is also suppressed by balancing scheme. K. Jung and J. Kim, Opt. Lett. 37, 2958 (2012) K. Jung et al, IEEE Photon. J. 5, (2013)
9 Operation principle of the FLOM-PD Balance condition
10 Operation principle of the FLOM-PD
11 Operation principle of the FLOM-PD Balanced photodetector
12 Timing link stabilization method fs-laser Local Round-trip Path adjustment Balanced optical crosscorrelator () J. Kim et al, Nat. Photon. 2, 733 (2008) - Extremely high resolution and very low long-term drift
13 Timing link stabilization method fs-laser Local Round-trip Path adjustment Balanced optical crosscorrelator () J. Kim et al, Nat. Photon. 2, 733 (2008) - Extremely high resolution and very low long-term drift
14 Timing link stabilization method fs-laser Local Round-trip Path adjustment Balanced optical crosscorrelator () J. Kim et al, Nat. Photon. 2, 733 (2008) - Extremely high resolution and very low long-term drift
15 Timing link stabilization method Timing fluctuation by the long fiber link fs-laser Local Round-trip Timing fluctuation by the long fiber link Path adjustment Feedback Balanced optical crosscorrelator () J. Kim et al, Nat. Photon. 2, 733 (2008) - Extremely high resolution and very low long-term drift
16 1.15 km remote RF distribution experimental setup <OMO Room> Phase noise OMO RMO Pump probe laser Optical-Xray experiment undulator RMO synch OMO fs-laser f symmetric splitter ter Fiber length stabilization.. Timing transfer over 100 m to 1 km O-E conv.. O-E conv GHz RF signals Local distribution LINAC (48 cavities) e-gun Fiber length stabilization RF Master Oscillator (RMO) Optical Master Oscillator (OMO) injector -40- laser
17 1.15 km remote RF distribution experimental setup Phase noise OMO <OMO Room> RMO Symmetric splitter Fiber-Loop Optical-Microwave Phase Detector (FLOM-PD) for laser to RF synchronization Optical-Xray Pump experiment probe laser undulator RMO synch OMO fs-laser f symmetric splitter ter Fiber length stabilization.. Timing transfer over 100 m to 1 km O-E conv.. O-E conv GHz RF signals Local distribution LINAC (48 cavities) e-gun Fiber length stabilization -40- Two Balanced Optical Cross-correlators injector () for two fiber links stabilization laser
18 1.15 km remote RF distribution experimental setup Phase noise OMO RMO <OMO Room> RMO synch OMO fs-laser f symmetric splitter ter Fiber length stabilization Dispersion compensated two 1.15 km fiber links <SMF-28 plus DCF> km in a spool - 50 m in a cable duct 50 m cable duct <ITF klystron gallery> O-E conv.. O-E conv Pump probe laser GHz RF signals Optical-Xray experiment undulator Local distribution LINAC (48 cavities) e-gun Fiber length stabilization injector laser
19 1.15 km remote RF distribution experimental setup Phase noise OMO <OMO Room> RMO Delivered timing stabilized fiber links RMO synch OMO fs-laser f symmetric splitter ter Fiber length stabilization Fiber length stabilization Rack for 1.15 km remote RF generation 50 m cable duct <ITF klystron gallery> FLOM-PD GHz voltage-controlled oscillator
20 1.15 km remote RF distribution experimental setup <SMF-28 plus DCF> km in a spool - 50 m in a cable duct
21 Short-term residual phase noise result between delivered GHz RF and optical pulse trains This is the first RF transfer test based on optical pulsed timing system in accelerator environment. Integrated timing jitter: 7.3 fs [1 Hz - 10 MHz] K. Jung et al, J. Lightwave. Technol., DOI: /JLT (2014)
22 Long-term residual timing drift result between delivered GHz RF and optical pulse trains 40 Hz lowpass filtered and 1 Hz sampled data fs in rms for highlighted 3 ~ 10 hours - 31 fs in rms for whole 62.5 hours It was caused by the FLOM-PD temperature change and fiber link PMD (polarization mode dispersion). - Typically known PMD of the SMF-28 fiber is 60 km. K. Jung et al, J. Lightwave. Technol., DOI: /JLT (2014)
23 Electron bunch timing jitter measurement Electron bunch jitter measurement (J. Hong et al, to be presented at IBIC 2014) <ITF tunnel> <OMO room> RMO <ITF klystron gallery> GHz RF signals Klystron Accelerating cavity synch OMO fs-laser symmetric splitter Fiber length stabilization Fiber length stabilization 1.15 km fiber 60 m fiber FLOM-PD <Injector laser room> TC- e-gun injector laser
24 Summary We have implemented the optical pulse-based timing distribution system test bed in Pohang Accelerator Laboratory. We showed that sub-10 fs synchronization between a RF oscillator and an optical pulse train which are 1 km away can be possible in the real accelerator machine. Now, we are measuring electron bunch timing jitter after applying the full optical pulsed timing system including synchronization of an injector laser (Ti:Sa laser) to the optical master oscillator (to be presented at IBIC 2014). This work was supported by the PAL-XFEL Project and the National Research Foundation (Grant number 2012R1A2A2A ) of South Korea.
25 Appendix
26
27 Out-of-loop local synchronization performance between a mode-locked laser and a microwave source rms timing jitter: 673 as [1 Hz 10 MHz] 847 as rms timing drift for 2 hours
28 Two color balanced optical cross-correlator (TC-) Retroreflector Dichroic mirror Balanced photodetector BBO HWP QWP QWP Dichroic mirror HWP HWP To pzt and galvo Ti:Sa laser Er laser 1550 nm 800 nm 527 nm Output voltage signal is proportional to temporal overlap between the two pulses Loop filter
29 Er laser vs Ti:Sa laser synchronization experimental setup <OMO room> Er laser (OMO) 60-m stabilized fiber link EDFA EDFA <ITF injector laser room> FRM 10 % 90 % Ti:Sa laser PD BPF AMP Mixer AMP BPF PD To galvo To pzt Loop filter Low bandwidth coarse locking High bandwidth fine locking Loop filter TC- In-loop measurement
30 Residual phase noise between injector laser (Ti:Sa) and optical master oscillator (Er laser) Resonant peak + Ti:Sa laser absolute noise Locking region: ~ 20 khz Photodetector noise floor This is a preliminary in-loop data. Integrated rms in-loop timing jitter: 21.7 fs [1 Hz ~ 1 MHz]
31 BAM??? This is a preliminary data. rms timing drift: 47 fs [ Hz ~ MHz]
32 Balanced optical cross-correlator for the timing fluctuation detection Local pulse train Δt Balanced optical cross-correlator Round-trip pulse train dichroic i beam splitter type phase-matched nonlinear crystal dichroic coating + -
33 Balanced optical cross-correlator for the timing fluctuation detection Local pulse train Δt Balanced optical cross-correlator Round-trip pulse train dichroic i beam splitter type phase-matched nonlinear crystal dichroic coating + -
34 Why optical timing and synchronization at FELs in the 21 st century?
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