Spectral broadening and temporal compression of ∼100 fs pulses in air-filled hollow core capillary fibers

C. Li; K. P.M. Rishad; P. Horak; Y. Matsuura; D. Faccio

doi:10.1364/OE.22.001143

Spectral broadening and temporal compression of ∼100 fs pulses in air-filled hollow core capillary fibers

C. Li, K. P.M. Rishad, P. Horak, Y. Matsuura, D. Faccio

MEN - Biomedical Engineering

Research output: Contribution to journal › Article › peer-review

12 Citations (Scopus)

Abstract

We experimentally study the spectral broadening of intense, ∼100 femtosecond laser pulses at 785 nm coupled into different kinds of hollow core capillary fibers, all filled with air at ambient pressure. Differently from observations in other gases, the spectra are broadened with a strong red-shift due to highly efficient intrapulse Raman scattering. Numerical simulations show that such spectra can be explained only by increasing the Raman fraction of the third order nonlinearity close to 100%. Experimentally, these broadened and red-shifted pulses do not generally allow for straightforward compression using, for example, standard chirped mirrors. However, using special hollow fibers that are internally coated with silver and polymer we obtain pulse durations in the sub-20 fs regime with energies up to 300 mJ.

Original language	English
Pages (from-to)	1143-1151
Number of pages	9
Journal	Optics Express
Volume	22
Issue number	1
DOIs	https://doi.org/10.1364/OE.22.001143
Publication status	Published - 2014 Jan 13

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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abstract = "We experimentally study the spectral broadening of intense, ∼100 femtosecond laser pulses at 785 nm coupled into different kinds of hollow core capillary fibers, all filled with air at ambient pressure. Differently from observations in other gases, the spectra are broadened with a strong red-shift due to highly efficient intrapulse Raman scattering. Numerical simulations show that such spectra can be explained only by increasing the Raman fraction of the third order nonlinearity close to 100%. Experimentally, these broadened and red-shifted pulses do not generally allow for straightforward compression using, for example, standard chirped mirrors. However, using special hollow fibers that are internally coated with silver and polymer we obtain pulse durations in the sub-20 fs regime with energies up to 300 mJ.",

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AU - Li, C.

AU - Rishad, K. P.M.

AU - Horak, P.

AU - Matsuura, Y.

AU - Faccio, D.

PY - 2014/1/13

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N2 - We experimentally study the spectral broadening of intense, ∼100 femtosecond laser pulses at 785 nm coupled into different kinds of hollow core capillary fibers, all filled with air at ambient pressure. Differently from observations in other gases, the spectra are broadened with a strong red-shift due to highly efficient intrapulse Raman scattering. Numerical simulations show that such spectra can be explained only by increasing the Raman fraction of the third order nonlinearity close to 100%. Experimentally, these broadened and red-shifted pulses do not generally allow for straightforward compression using, for example, standard chirped mirrors. However, using special hollow fibers that are internally coated with silver and polymer we obtain pulse durations in the sub-20 fs regime with energies up to 300 mJ.

AB - We experimentally study the spectral broadening of intense, ∼100 femtosecond laser pulses at 785 nm coupled into different kinds of hollow core capillary fibers, all filled with air at ambient pressure. Differently from observations in other gases, the spectra are broadened with a strong red-shift due to highly efficient intrapulse Raman scattering. Numerical simulations show that such spectra can be explained only by increasing the Raman fraction of the third order nonlinearity close to 100%. Experimentally, these broadened and red-shifted pulses do not generally allow for straightforward compression using, for example, standard chirped mirrors. However, using special hollow fibers that are internally coated with silver and polymer we obtain pulse durations in the sub-20 fs regime with energies up to 300 mJ.

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Spectral broadening and temporal compression of ∼100 fs pulses in air-filled hollow core capillary fibers

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