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Journal of Optics A: Pure and Applied Optics

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Journal of Optics A: Pure and Applied Optics Volume 11 Number 10 Create an alert RSS this journal

F Couny and F Benabid 2009 J. Opt. A: Pure Appl. Opt. 11 103002 doi:10.1088/1464-4258/11/10/103002

Optical frequency comb generation in gas-filled hollow core photonic crystal fibres

REVIEW ARTICLE

F Couny and F Benabid

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REVIEW ARTICLE

The efficiency of gas-based nonlinear processes is often limited by the diffraction of the pump laser as it propagates through the nonlinear medium. As a consequence, phenomena with strong nonlinear response requirements, such as high harmonic generation or Raman sideband generation, lack the required laser–matter interaction to fulfil their potential. Indeed, the conversion efficiency of these techniques is usually low and the experimental set-up cumbersome. The advent of hollow core photonic crystal fibre technology drafts new territories for nonlinear optics, and in particular offers new alternatives for sub-femtosecond pulse generation. The air-guiding fibre combines unprecedented laser confinement over long interaction lengths and, when filled with an adequate nonlinear gas, offers improved conversion efficiency and up to a million-fold reduction of the pump power threshold. This paper presents a review of the types of hollow core PCF available for nonlinear applications and the results obtained for efficient Raman conversion in H2-filled hollow core PCF that led to the observation of a multi-octave frequency comb spanning from ~325 to ~2300 nm using a single pump laser with relatively low power. The generated ultra-broad spectrum creates a simple route towards a compact source of attosecond pulses.


PACS

42.65.Re Ultrafast processes; optical pulse generation and pulse compression

42.65.Ky Frequency conversion; harmonic generation, including higher-order harmonic generation

42.60.Jf Beam characteristics: profile, intensity, and power; spatial pattern formation

42.55.Ye Raman lasers

42.70.Qs Photonic bandgap materials

Subjects

Optics, quantum optics and lasers

Dates

Issue 10 (October 2009)

Received 18 February 2009, accepted for publication 2 July 2009

Published 6 August 2009



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