Ann-Kathrin Raab scite author profile

Ann-Kathrin Raab

3Publications

8Citation Statements Received

33Citation Statements Given

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Affiliations

Lund University, Max Planck Institute of Quantum Optics, Ludwig-Maximilians-Universität München

Publications

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Cavity-enhanced field-resolved spectroscopy

et al. 2022

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Femtosecond enhancement cavities1 are key to applications including high-sensitivity linear2–4 and nonlinear5,6 gas spectroscopy, as well as efficient nonlinear optical frequency conversion7–10. Yet, to date, the broadest simultaneously enhanced bandwidths amount to <20% of the central optical frequency8,9,11–15. Here, we present an ultrabroadband femtosecond enhancement cavity comprising gold-coated mirrors and a wedged-diamond-plate input coupler, with an average finesse of 55 for optical frequencies below 40 THz and exceeding 40 in the 120–300 THz range. Resonant enhancement of a 50-MHz-repetition-rate offset-free frequency comb spanning 22–40 THz results in a waveform-stable ultrashort circulating pulse with a spectrum supporting a Fourier limit of 1.6 cycles, enabling time-domain electric-field-resolved spectroscopy of molecular samples with temporally separated excitation and molecular response16. The contrast between the two is improved by taking advantage of destructive interference at the input coupler. At an effective interaction length with a gas of up to 81 m, this concept promises parts-per-trillion-level ultrabroadband electric-field-resolved linear and nonlinear spectroscopy of impulsively excited molecular vibrations.

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Multi-gigawatt peak power post-compression in a bulk multi-pass cell at high repetition rate

Raab¹,

Seidel²,

Chen³

et al. 2022

Preprint

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The output of a 200 kHz, 34 W, 300 fs Yb amplifier is compressed to 31 fs with > 88 % efficiency to reach a peak power of 2.5 GW, which to date is a record for a single-stage bulk multi-pass cell. Despite operation 80 times above the critical power for self-focusing in bulk material, the setup demonstrates excellent preservation of the input beam quality. Extensive beam and pulse characterizations are performed to show that the compressed pulses are promising drivers for high harmonic generation and nonlinear optics in gases or solids.

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Octave-Spanning Mid-Infrared Passive Optical Resonator

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Raab

Högner

et al. 2021

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Ann-Kathrin Raab

Cavity-enhanced field-resolved spectroscopy

Multi-gigawatt peak power post-compression in a bulk multi-pass cell at high repetition rate

Octave-Spanning Mid-Infrared Passive Optical Resonator

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