High-power low-noise 2-GHz femtosecond laser oscillator at 2.4 μm
Date
2022/2/14Author
Barh, AjantaAlaydin, Behçet Özgür
Heidrich, Jonas
Gaulke, Marco
Golling, Matthias
Phillips, Cristopher R.
Keller, Ursula
Metadata
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AJANTA BARH, 1,* B. ÖZGÜR ALAYDIN, 1,2 JONAS HEIDRICH, 1 MARCO GAULKE, 1 MATTHIAS GOLLING, 1 CHRISTOPHER R. PHILLIPS, 1 AND URSULA KELLER1 1Department of Physics, Institute of Quantum Electronics, ETH Zurich, Auguste-Piccard-Hof 1, 8093 Zurich, Switzerland 2Current address: Department of Physics, Sivas Cumhuriyet University, 58140 Merkez/Sivas, TurkeyAbstract
Femtosecond lasers with high repetition rates are attractive for spectroscopic applications with high sampling rates, high power per comb line, and resolvable lines. However, at
long wavelengths beyond 2 µm, current laser sources are either limited to low output power or
repetition rates below 1 GHz. Here we present an ultrafast laser oscillator operating with high
output power at multi-GHz repetition rate. The laser produces transform-limited 155-fs pulses at
a repetition rate of 2 GHz, and an average power of 0.8 W, reaching up to 0.7 mW per comb line
at the center wavelength of 2.38 µm. We have achieved this milestone via a Cr2+
-doped ZnS
solid-state laser modelocked with an InGaSb/GaSb SESAM. The laser is stable over several hours
of operation. The integrated relative intensity noise is 0.15% rms for [10 Hz, 100 MHz], and
the laser becomes shot noise limited (-160 dBc/Hz) at frequencies above 10 MHz. Our timing
jitter measurements reveal contributions from pump laser noise and relaxation oscillations, with
a timing jitter of 100 fs integrated over [3 kHz, 100 MHz]. These results open up a path towards
fast and sensitive spectroscopy directly above 2 µm.
Volume
30Issue
4URI
https://opg.optica.org/oe/fulltext.cfm?uri=oe-30-4-5019&id=469126https://hdl.handle.net/20.500.12418/13533