Thin chalcogenide capillaries as efficient waveguides in the mid-IR -
  THz spectral range

Andrey Markov; Anna Mazhorova; Bora Ung; Bowden; Bruno; Chen; Chen; Churbanov; Churbanov; Dupuis; Dupuis; Granzow; Harrington; Heo; Hô; Ito; Jin; Kanamori; Kosolapov; Lai; Lai; Maksim Skorobogatiy; Mathieu Rozé; Matsuura; Miyagi; Mossadegh; Naftaly; Nagel; Nguema; Roze; Shiryaev; Shiryaev; Snopatin; Stepan Gorgutsa; Temelkuran; Ung; Ung; Zalkovskij

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Thin chalcogenide capillaries as efficient waveguides in the mid-IR - THz spectral range

Authors: Andrey Markov
Anna Mazhorova
Bora Ung
Bowden
Bruno
Chen
Chen
Churbanov
Churbanov
Dupuis
Dupuis
Granzow
Harrington
Heo
Hô
Ito
Jin
Kanamori
Kosolapov
Lai
Lai
Maksim Skorobogatiy
Mathieu Rozé
Matsuura
Miyagi
Mossadegh
Naftaly
Nagel
Nguema
Roze
Shiryaev
Shiryaev
Snopatin
Stepan Gorgutsa
Temelkuran
Ung
Ung
Zalkovskij
Publication date: 21 December 2011
Publisher: 'The Optical Society'
Doi

Abstract

We present chalcogenide glass As2Se3 capillaries as efficient waveguides in the mid-IR and THz spectral ranges. The capillaries are fabricated using a double crucible glass drawing technique. The wall thickness of the glass capillary is properly designed and controlled during drawing, and we are able to produce capillaries with different wall thickness, starting from 12 \mum and up to 130 \mum. Such capillaries show low loss properties in the whole target wavelength region. In the mid-IR range guidance is governed by Fresnel reflection and antiguidance mechanisms (ARROWs), while in the THz spectral range thin walls capillaries guide via total internal reflection

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