Optimized temperature/bandwidth operation of cryogenic Yb:YAG composite thin-disk laser amplifier 1 Ultrafast Optics and X-Ray Division, Center for Free-Electron.

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Presentation transcript:

Optimized temperature/bandwidth operation of cryogenic Yb:YAG composite thin-disk laser amplifier 1 Ultrafast Optics and X-Ray Division, Center for Free-Electron Laser Science / DESY, Notkestrasse 85, Hamburg, Germany 2 Department of Physics and the Hamburg Centre for Ultrafast Imaging, University of Hamburg Luruper Chaussee 149, D Hamburg, Germany 3 Department of Electrical Engineering and Computer Science, MIT-RLE, Cambridge, Massachusetts 02139, USA Anne-Laure Calendron 1,2, Luis E. Zapata 3, Hu ̈ seyin C ̧ ankaya 1,2, Hua Lin 3 and Franz X. Ka ̈ rtner 1,2,3 -(1) Multi-mode cavity for the power extraction and bandwidth characterization -(2) Multi-pass amplifier -Characteristics: Cavity: -Lens: f = 300 mm -10% output coupler Crystals: - Composite thin-disc, 1% doped Yb:YAG -Thickness: 1 mm Pump: -Fiber coupled laser diode NA=, MFD = 1000 µm -Wavelength λ = 938 nm stabilized -Maximal pump power P P = 500 W Motivation Experimental set-upExperimental results References Conclusions Ultrafast Optics and X-Rays Division High-energy picosecond lasers are needed for Pumping of Optical Parametric (Chirped Pulse) Amplifiers Supporting efforts in sub-cycle pulse synthesis and coherent X-ray sources  Solution: Cryogenic composite-thin-disc YAG multipass amplifier in strict relay imaging geometry Aim at 100 mJ, low repetition rate (100 Hz – 1 kHz)  For sub-ps pulses: Optimization of bandwidth vs. power required Fig. 1: Layout of (a) the multi-pass amplifier, (b) the multi-mode cavity. (c) Shape of the composite thin-disc. [1,2] [1] L. E. Zapata, H. Lin, H. Cankaya, A.-L. Calendron, W. Huang, K.-H. Hong, and F. X. Kaertner, “Cryogenic composite thin disk high energy pulsed, high average power, diffraction limited multi-pass amplifier,” ASSL Conference Proceedings, AF3A (2013) [2] L. E. Zapata, "Edge-Facet Pumped, multi-aperture, thin-disk laser geometry for very high Average Power Output Scaling,” U. S. Patent 6,834,070 B2 December 21, Inventor: under DOE contract No. W-7405-ENG-48 with the University of California. [3] T. Y. Fan, D. J. Ripin, R. L. Aggarwal, J. R. Ochoa, B. Chann, M. Tilleman, J. Spitzberg, „Cryogenic Yb 3+ - Doped Solid-State Lasers“, IEEE JSTQE 13 (3), 448 (2007) [4] Altechna webiste: Fig. 5: Output power dependancy with temperature. Pump settings: f rep = 10 Hz, τ pumping = 30 ms, P av = 150 W Fig. 4: Slope efficiency. T = 85 K Fig. 6: Gain narrowing during amplification of 1 mJ seed. -78 W extracted from composite thin-disc in a multi-mode cavity pumped with 150 W and at 80 K -Measurement of fluorescence spectra at different temperatures -Measurement of gain narrowing during the amplification of 1 mJ seed pulses -Extraction of 60 mJ from the multi-pass amplifier, limited by a damage due to lack of stretching -Outlook: -Increase of the stretching ratio -Amplification to higher repetition rates -Compression of the pulses after amplification Seeded operation: Fluorescence measurements: [4] [3,4] [3] κ undoped [W/m/K]11440 σ emission [ cm 2 ] σ absoption [ cm 2 ] τ [µs] Δλ emission [nm] Tab. 1: Material properties. Fig. 7: Energie after multi-pass amplification in composite thin-disc and Franz-Nodvik simulations. Fluorescence Heat Laser (a) (c) Fig. 3: Fluorescence measurements vs temperature. Pump settings: f rep = 10 Hz, τ pumping = 1 ms, P av = 1 W Multi-mode cavity operation: (b) Temperature sensor Temperature sensor 2 Heat foil Crystal Fig. 2: Drawing of the cold head with the heat foils for temperature adjustments. MIT Symbol Where is b) and c)