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Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 1 Click to edit Master subtitle style Jörn Bödewadt Recent Results of Seeding at FLASH Supported by.

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1 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 1 Click to edit Master subtitle style Jörn Bödewadt Recent Results of Seeding at FLASH Supported by BMBF under contract 05K13GU4 and 05K13PE3 DFG GrK 1355 Joachim Herz Stiftung Helmholtz Accelererator R&D > FEL Seeding > Experimental setup at FLASH > Recent results 6th International Particle Accelerator Conference, 2015, Richmond VA

2 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 2 Free-electron lasers > Electron LINAC:  relativistic e-beam, high peak-current, small emittance and energy spread > Undulator: FEL process creates ultra-intense X-ray beams  ultra-short pulses, high degree of coherence > FEL seeding:

3 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 3 Why would FEL users want seeding?

4 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 4 Statistical fluctuations of spectrum with SASE

5 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 5 Timing fluctuations with two lasers FERMI@Elettra Seeded Soft X-ray FEL facility

6 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 6 Seeding experiment at FLASH FLASH1 FLASH2

7 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 7 Seeding experiment at FLASH FLASH1 FLASH2 Seed laser lab Diagnostic lab

8 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 8 Seeding experiment at FLASH FLASH1 FLASH2 Seed laser lab Diagnostic lab

9 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 9 Seeding experiment at FLASH FLASH1 FLASH2 Seed laser lab Diagnostic lab Undulators Seed laser Experiment NIR beamline FLASH tunnel

10 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 10 Seeding experiment at FLASH - sFLASH > Installed during FLASH upgrade in 2010 > First demonstration of direct HHG seeding at 38 nm (2012) > No operation in 2013 (FLASH2 upgrade) > Since 2014 preparation of HGHG FLASH1 beamline 266 nm seed beam S. Ackermann et al., PRL 111, 114801 (2013)

11 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 11 H igh -G ain H armonic G eneration UV laser e- beam D. Xiang et al., PR-STAB 16, 110701 (2013)

12 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 12 H igh -G ain H armonic G eneration UV laser e- beam D. Xiang et al., PR-STAB 16, 110701 (2013)

13 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 13 Seed laser system > Driver system:  Ti:sapphire 800 nm, 10 Hz, 60 fs (FWHM), <50 mJ max pulse energy > Third harmonic generation in crystals UV beam on YAG screen at the focus Max. available pulse energy in the UV ~ 280 µJ

14 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 14 Seed laser system > Driver system:  Ti:sapphire 800 nm, 10 Hz, 60 fs (FWHM), <50 mJ max pulse energy > Third harmonic generation in crystals UV beam on YAG screen at the focus Max. available pulse energy in the UV ~ 280 µJ

15 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 15 Laser-electron overlap

16 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 16 Laser-electron overlap energy modulation observed with LOLA Comparison with simulation allows a characterization of the modulation amplitude (thanks to C. Behrens) Measurement modulation by UV laser

17 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 17 Characterization of induced energy modulation UV induced energy modulation observed with LOLA Comparison with simulation allow a characterization of the modulation amplitude MeasurementSimulation

18 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 18 Characterization of induced energy modulation UV induced energy modulation observed with LOLA Comparison with simulation allow a characterization of the modulation amplitude MeasurementSimulation

19 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 19 Characterization of induced energy modulation UV induced energy modulation observed with LOLA Comparison with simulation allow a characterization of the modulation amplitude MeasurementSimulation ATTENTION! Effects of longitudinal space charge (LSC) will change the modulation along the drift and needs to be taken into account!

20 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 20 Electron parameters > Operation of LINAC for moderate compression Simulated long. phase-space

21 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 21 Electron parameters > Operation of LINAC for moderate compression

22 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 22 Electron parameters > Operation of LINAC for moderate compression Measurement of longitudinal phase-space distribution Current profile

23 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 23 FEL gain 38nm (7th harmonic) > FEL pulse energy Seed laser offSeed laser on

24 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 24 FEL gain 38nm (7th harmonic) > FEL beam profile Seed laser offSeed laser on

25 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 25 FEL gain 38nm (7th harmonic) > Spectra of HGHG and SASE (April, 19th 2015) SASE x1000

26 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 26 FEL gain 38nm (7th harmonic) > Spectra of HGHG (second run May, 1st 2015) SASE x1000

27 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 27 > Prepared seeding experiment at FLASH for HGHG operation > Laser-electron overlap commissioned and characterized with TDS > Recently first operation of HGHG with peak current of 600 A Summary Seed laser off Seed laser on

28 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 28 Outlook > Proceed with HGHG operation and characterization till end of 2015  Improve stability  Investigate dependence of microbunch instability  Investigate higher harmonics (> 7th)  Stronger e-bunch compression (> 1 kA) > Upgrade of seed laser system to improve stability and prepare for Echo- Enabled Harmonic Generation operation > Temporal characterization of seeded FEL pulses

29 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 29 Single shot temporal diagnostic of seeded FEL pulses > Mapping time to energy by the “THz streaking” method > Achievements:  Commissioning of hardware  THz generation: 2.5µJ per pulse  Temporal overlap (THz, NIR with XUV) set with 50ps precision Overlap THz-XUV in noble gas

30 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 30 > On behalf of the FLASH seeding team Thank you for your attention Ph. Amstutz A. Azima M. Drescher C. Lechner Th. Maltezopoulos V. Miltchev T. Plath J. Rossbach S. Ackermann R. Aßmann J. Bödewadt N. Ekanayake B. Faatz I. Hartl T. Laarmann L. Lazzarino F. Mayet K. Hacker S. Khan R. Molo Lots of thanks to the FLASH operation team

31 Jörn Bödewadt | Seeding at FLASH | 20.05.2014 | Page 31 > On behalf of the FLASH seeding team Thank you for your attention Ph. Amstutz A. Azima M. Drescher C. Lechner Th. Maltezopoulos V. Miltchev T. Plath J. Rossbach S. Ackermann R. Aßmann J. Bödewadt N. Ekanayake B. Faatz I. Hartl T. Laarmann L. Lazzarino F. Mayet K. Hacker S. Khan R. Molo Posters during IPAC 2015: T. Plath et al., “Optics Compensation for Variable-Gap Undulator Systems at FLASH”, TUPWA038 J. Boedewadt et al., “Simulation of optical transport beamlines for high-quality optical beams for accelerator applications”, TUPWA026 Lots of thanks to the FLASH operation team

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