24 Channels × 10Ghz Spectrally Sliced Pulse Source Based on Spectral Broadening in a Highly Nonlinear Holey Fiber

Z. Yusoff; P. Teh; P. Petropoulos; K. Furusawa; W. Belardi; T. Monro; D. Richardson

24 Channels × 10Ghz Spectrally Sliced Pulse Source Based on Spectral Broadening in a Highly Nonlinear Holey Fiber

Z. Yusoff, P. Teh, P. Petropoulos, K. Furusawa, W. Belardi, T. Monro, D. Richardson

Institute of Multidisciplinary Research for Advanced Materials (IMRAM)

Research output: Contribution to conference › Paper

3 Citations (Scopus)

Abstract

We demonstrate a multiwavelength pulse source which utilizes supercontinuum generated in a normally dispersive holey fiber and spectral slicing in an arrayed waveguide grating. All channels exhibit almost constant pulse width and excellent noise properties, as verified by bit-error-rate measurements.

Original language	English
Pages	687-689
Number of pages	3
Publication status	Published - 2003 Dec 1

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Electrical and Electronic Engineering

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Yusoff, Z., Teh, P., Petropoulos, P., Furusawa, K., Belardi, W., Monro, T., & Richardson, D. (2003). 24 Channels × 10Ghz Spectrally Sliced Pulse Source Based on Spectral Broadening in a Highly Nonlinear Holey Fiber. 687-689.

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title = "24 Channels × 10Ghz Spectrally Sliced Pulse Source Based on Spectral Broadening in a Highly Nonlinear Holey Fiber",

abstract = "We demonstrate a multiwavelength pulse source which utilizes supercontinuum generated in a normally dispersive holey fiber and spectral slicing in an arrayed waveguide grating. All channels exhibit almost constant pulse width and excellent noise properties, as verified by bit-error-rate measurements.",

author = "Z. Yusoff and P. Teh and P. Petropoulos and K. Furusawa and W. Belardi and T. Monro and D. Richardson",

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AU - Yusoff, Z.

AU - Teh, P.

AU - Petropoulos, P.

AU - Furusawa, K.

AU - Belardi, W.

AU - Monro, T.

AU - Richardson, D.

PY - 2003/12/1

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AB - We demonstrate a multiwavelength pulse source which utilizes supercontinuum generated in a normally dispersive holey fiber and spectral slicing in an arrayed waveguide grating. All channels exhibit almost constant pulse width and excellent noise properties, as verified by bit-error-rate measurements.

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