Affiliation:
1. Center for Molecular Fingerprinting
2. Ludwig-Maximilians-Universität München
Abstract
Diode-pumped Cr:ZnS oscillators have emerged as precursors for single-cycle infrared pulse generation with excellent noise performance. Here we demonstrate a Cr:ZnS amplifier with direct diode-pumping to boost the output of an ultrafast Cr:ZnS oscillator with minimum added intensity noise. Seeded with a 0.66-W pulse train at 50-MHz repetition rate and 2.4 µm center wavelength, the amplifier provides over 2.2 W of 35-fs pulses. Due to the low-noise performance of the laser pump diodes in the relevant frequency range, the amplifier output achieves a root mean square (RMS) intensity noise level of only 0.03% in the 10 Hz–1 MHz frequency range and a long-term power stability of 0.13% RMS over one hour. The diode-pumped amplifier reported here is a promising driving source for nonlinear compression to the single- or sub-cycle regime, as well as for the generation of bright, multi-octave-spanning mid-infrared pulses for ultra-sensitive vibrational spectroscopy.
Funder
Max Planck Institute of Quantum Optics
Centre for Advanced Laser Applications of the Ludwig Maximilians University of Munich, Department of Physics
Center for Molecular Fingerprinting
Subject
Atomic and Molecular Physics, and Optics
Cited by
4 articles.
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