Highly-efficient, octave spanning soliton self-frequency shift using a photonic crystal fiber with low OH loss

S.A. Dekker; R. Pant; A.C. Judge; C. Martijn De Sterke; B.J. Eggleton; I Gris Sanchez; J.C. Knight

Highly-efficient, octave spanning soliton self-frequency shift using a photonic crystal fiber with low OH loss

S.A. Dekker, R. Pant, A.C. Judge, C. Martijn De Sterke, B.J. Eggleton, I Gris Sanchez, J.C. Knight

Research output: Contribution to journal › Article

Abstract

We report the first demonstration of octave spanning soliton self-frequency shift in a OH absorption reduced fiber with widely-spaced zero-dispersion wavelengths. To our knowledge, this is the largest reported frequency tuning for a fiber-based source.

Original language	English
Journal	Optics InfoBase Conference Papers
Publication status	Published - 1 Jan 2010

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Dekker, S. A., Pant, R., Judge, A. C., Martijn De Sterke, C., Eggleton, B. J., Gris Sanchez, I., & Knight, J. C. (2010). Highly-efficient, octave spanning soliton self-frequency shift using a photonic crystal fiber with low OH loss. Optics InfoBase Conference Papers.

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abstract = "We report the first demonstration of octave spanning soliton self-frequency shift in a OH absorption reduced fiber with widely-spaced zero-dispersion wavelengths. To our knowledge, this is the largest reported frequency tuning for a fiber-based source.",

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AU - Dekker, S.A.

AU - Pant, R.

AU - Judge, A.C.

AU - Martijn De Sterke, C.

AU - Eggleton, B.J.

AU - Gris Sanchez, I

AU - Knight, J.C.

PY - 2010/1/1

Y1 - 2010/1/1

N2 - We report the first demonstration of octave spanning soliton self-frequency shift in a OH absorption reduced fiber with widely-spaced zero-dispersion wavelengths. To our knowledge, this is the largest reported frequency tuning for a fiber-based source.

AB - We report the first demonstration of octave spanning soliton self-frequency shift in a OH absorption reduced fiber with widely-spaced zero-dispersion wavelengths. To our knowledge, this is the largest reported frequency tuning for a fiber-based source.

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M3 - Article

JO - Optics InfoBase Conference Papers

JF - Optics InfoBase Conference Papers

SN - 2162-2701

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