Simulations on Beam Monitor Systems for Longitudinal Feedback Schemes at FLASH.
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1 Simulations on Beam Monitor Systems for Longitudinal Feedback Schemes at FLASH. Christopher Behrens for the FLASH team Deutsches Elektronen-Synchrotron (DESY) FLS-2010 Workshop at SLAC, 4. March 2010 C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 1 / 18
2 Outline 1 FLASH Operation in the Past and Present Bunch Compression and Arrival-Time Beam Monitors Demonstration of a Longitudinal Feedback 2 FLASH Operation in the Future Beam Dynamics Simulations Redesign of the BCM 3 Future Longitudinal Feedback Beam-based Feedback Structure Simulations on Contributions: Arrival-Time and Compression Evaluation of Monitor Signals 4 References C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 2 / 18
3 FLASH Operation in the Past and Present Bunch Compression and Arrival-Time Slow Drifts: Single Bunch Operation. RF parameters in front of the magnetic chicanes bunch arrival time and compression. Figure: Slow phase feedback. (Logbook print) Figure: Bunch arrival time: RF gun. (Ref.: [1]) Slow beam-based feedback is mandatory. C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 3 / 18
4 FLASH Operation in the Past and Present Bunch Compression and Arrival-Time Fast Variations: Long Bunch Trains. Figure: Compression monitor: along the bunch train. Figure: Lasing with long bunch trains. (Logbook print) RF phase and amplitude slopes along the train bunch arrival time and compression. Fast (intra-bunch-train) beam-based feedback is mandatory. C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 4 / 18
5 FLASH Operation in the Past and Present Beam Monitors Bunch Compression Monitor (BCM). Figure: Left: Diffraction radiator, Right: Pyroelectric sensor. Figure: Present BCM Setup. Coherent diffraction radiation from slitted metallic screens. Radiation transport: THz and GHz wavelength range. Pyroelectric detectors: LiTaO 3 (2 mm 2 mm 27 µm). C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 5 / 18
6 FLASH Operation in the Past and Present Beam Monitors Bunch Arrival-Time Monitor (BAM) (Ref.: [2,3]). Figure: Beam pick-up. Beam pick-up: Signal generation. MLO: Reference laser pulse train. EOM: Bunch arrival time is encoded in amplitude modulation. Dynamic ranges: 65 ps (coarse) and 4 ps (fine). Figure: Working principle. C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 6 / 18
7 FLASH Operation in the Past and Present Demonstration of a Longitudinal Feedback Bunch Arrival-Time and Compression Feedback (Ref.: [2]). Figure: Arrival-time with amplitude control. Figure: Phase jitter with phase control. Feedback on the RF parameters of ACC1 in front of the first magnetic chicane. C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 7 / 18
8 FLASH Operation in the Future Beam Dynamics Simulations Longitudinal Phase Space Simulation. Details of the Simulation Transformation of the longitudinal phase space. Longitudinal space charge (LS). Cryo module wake fields (W1 and W3). Wake fields due to coherent synchrotron radiation (W in and W out). BAM implementation: centroid shifts w.r.t to a reference. BCM implementation: DR spectrum (single electron and transport optics), form factor (bunch), detector response (pyro). C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 8 / 18
9 FLASH Operation in the Future Beam Dynamics Simulations Benchmark: Phase Scan of ACC1. ACC1 phase scan around maximum compression (without third-harmonic RF cavity). This scan is useful to find the FEL operation phase. BCM can basically be described by the DR spectrum and the form factor. C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 9 / 18
10 FLASH Operation in the Future Beam Dynamics Simulations BCM Response for Linearized Compression. Wavelengths contributions to the BCM signal for different compression schemes. Strategies to improve BCM signals. Redesign of the BCM setup be more sensitive at long wavelengths. Another working point shift form factor to shorter wavelengths. A different detector technology e.g. antennas in the GHz range. C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 10 / 18
11 FLASH Operation in the Future Redesign of the BCM Future BCM Setup (Ref.: [4]). Two detectors in order to increase the dynamic range. Coarse: Find operation points (e.g. by phase scans). Fine: Stabilization by feedbacks. Simulation (THzTransport) Diffraction radiation of a single electron. Source geometry (slitted metallic screen), port window and transport optics comparison of spectra NEW vs. OLD at BC ratio mean: wavelength Μm C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 11 / 18
12 Future Longitudinal Feedback Beam-based Feedback Structure Planned Feedback Structure. Arrival-Time Jitter Behind Magnetic Chicane σ 2 t = R56 c 0 σ 2 A A + C 1 2 σφ 2 C c 0 k + 1C 2 σ 2 RF t,initial Intra-bunch Train Beam-based Feedback Optical cross-correlation (OCC): Correction of laser phase. (talk of S. Schulz) BAM (in front of 1 st BC): Correction of gun phase. BAM and BCM (behind 1 st BC): Correction of phase/amplitude of ACC1 and ACC39. BAM and BCM (behind 2 nd BC): Correction of phase/amplitude of ACC2/3. C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 12 / 18
13 Future Longitudinal Feedback Simulations on Contributions: Arrival-Time and Compression Contributions from the Injector: OCC and BAM (Ref.: [1,2]). Simulations: Injector t beam G laser t laser + G gun t gun t laser = φ laser ω RF t gun = φgun ω RF Measurements: Injector Laser phase: 1.45 ps 68% Gun phase: 0.68 ps 32% Good agreement with simulations. OCC: Correction of laser phase. BAM: Correction of gun phase. C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 13 / 18
14 Future Longitudinal Feedback Simulations on Contributions: Arrival-Time and Compression Contributions from ACC1 and ACC39: BAM and BCM. Variation of the RF amplitudes/phases by ±1%/deg around the proposed working points. BAM: ACC1 has largest impact with both phase and amplitude. BCM: Phases of ACC1 and ACC39 have strongest influence. Sensitivities of BCM/BAM on RF parameters depend on the working point reduce sensitivity by convenient working points (e.g. on-crest operation). C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 14 / 18
15 Future Longitudinal Feedback Evaluation of Monitor Signals Linear Map: Monitors and Actuators (Example: 1 st BC). Monitors «tbam M = C BCM Sensitivities (Jacobian matrix) «A1 t S = Φ1 t A39 t Φ39 t A1 C Φ1 C A39 C Φ39 C Actuators 0 A 1 1 A 1 Φ A = B A C 39 A A 39 Φ 39 Linear Map Between Monitors and Actuators M = S A matrix inversion by sophisticated methods. C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 15 / 18
16 Future Longitudinal Feedback Evaluation of Monitor Signals Summarized Notes. Beam-based RF Phase and Amplitude Control at FLASH Important to reduce slow drifts and variations along bunch trains. Phase: Bunch Compression Monitors. Amplitude: Bunch Arrival-Time Monitors. Combined Beam Dynamics and Diagnostics Simulations Useful to predict applicability of diagnostics for different operations (e.g. different compression schemes). Is able to provide recommendations or even constraints on the working point definition. Studies on sensitivities of monitors for beam-based feedbacks are possible. C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 16 / 18
17 Future Longitudinal Feedback Evaluation of Monitor Signals The End. Thank you for your attention! C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 17 / 18
18 References References used in this Presentation 1 M.K. Bock et al., New Beam Arrival Time Monitor Used in a Time-Of-Flight Injector Measurement, FEL 09, Liverpool, August 2009, WEPC66 2 F. Löhl, Optical Synchronizations of a Free-Electron Laser with Femtosecond Precision, DESY-THESIS , K. Hacker, Measuring the Beam Energy in and around a Magnetic Bunch Compressor, to be published as DESY-THESIS report, C. Behrens et al., Upgrade and Evaluation of the Bunch Compression Monitor at the Free-electron Laser in Hamburg (FLASH), to be published in the Proceedings of IPAC 2010 C. Behrens (DESY) Beam Monitors and Longitudinal Feedback Schemes. FLS-2010 Workshop at SLAC 18 / 18
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