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Slow light nanocoatings for ultrashort pulse compression

Engineering and Technology

Slow light nanocoatings for ultrashort pulse compression

M. Ossiander, Y. Huang, et al.

This research showcases groundbreaking ultrathin nanostructured coatings that compress ultrashort laser pulses using slow light effects, enhancing applications across various fields. Conducted by M. Ossiander and colleagues, this innovative work employs silicon nanopillar arrays to achieve effective femtosecond pulse compression.... show more
Abstract
Transparent materials do not absorb light but have profound influence on the phase evolution of transmitted radiation. One consequence is chromatic dispersion, i.e., light of different frequencies travels at different velocities, causing ultrashort laser pulses to elongate in time while propagating. Here we experimentally demonstrate ultrathin nanostructured coatings that resolve this challenge: we tailor the dispersion of silicon nanopillar arrays such that they temporally reshape pulses upon transmission using slow light effects and act as ultrashort laser pulse compressors. The coatings induce anomalous group delay dispersion in the visible to near-infrared spectral region around 800 nm wavelength over an 80 nm bandwidth. We characterize the arrays' performance in the spectral domain via white light interferometry and directly demonstrate the temporal compression of femtosecond laser pulses. Applying these coatings to conventional optics renders them ultrashort pulse compatible and suitable for a wide range of applications.
Publisher
Nature Communications
Published On
Nov 11, 2021
Authors
M. Ossiander, Y.-W. Huang, W. T. Chen, Z. Wang, X. Yin, Y. A. Ibrahim, M. Schultze, F. Capasso
DOI
https://doi.org/10.1038/s41467-021-26920-6
Tags
ultrathin coatings
laser pulse compression
nanostructures
slow light effects
group delay dispersion
femtosecond lasers
silicon nanopillars

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