Scientific Reports (May 2017)

Mapping anomalous dispersion of air with ultrashort mid-infrared pulses

  • A. V. Mitrofanov,
  • A. A. Voronin,
  • D. A. Sidorov-Biryukov,
  • M. V. Rozhko,
  • E. A. Stepanov,
  • A. B. Fedotov,
  • V. Shumakova,
  • S. Ališauskas,
  • A. Pugžlys,
  • A. Baltuška,
  • A. M. Zheltikov

DOI
https://doi.org/10.1038/s41598-017-01598-3
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 7

Abstract

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Abstract We present experimental studies of long-distance transmission of ultrashort mid-infrared laser pulses through atmospheric air, probing air dispersion in the 3.6–4.2-μm wavelength range. Atmospheric air is still highly transparent to electromagnetic radiation in this spectral region, making it interesting for long-distance signal transmission. However, unlike most of the high-transmission regions in gas media, the group-velocity dispersion, as we show in this work, is anomalous at these wavelengths due to the nearby asymmetric-stretch rovibrational band of atmospheric carbon dioxide. The spectrograms of ultrashort mid-infrared laser pulses transmitted over a distance of 60 m in our experiments provide a map of air dispersion in this wavelength range, revealing clear signatures of anomalous dispersion, with anomalous group delays as long as 1.8 ps detected across the bandwidth covered by 80-fs laser pulses.