Acousto-optic Tunable Filters in Two-Mode Fibers

We demonstrate an acousto-optic tunable filter based on a two-mode elliptical-core fiber. The filter is operated at 1090 nm as a broadband notch filter used for spectral flattening and as a bandpass filter with subnanometer bandwidth. When used for spectral flattening the FWHM bandwidth is optimized...

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Veröffentlicht in:	Optical fiber technology 1997-04, Vol.3 (2), p.177-183
Hauptverfasser:	Östling, Dan, Engan, Helge E
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Sprache:	eng
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creator	Östling, Dan Engan, Helge E
description	We demonstrate an acousto-optic tunable filter based on a two-mode elliptical-core fiber. The filter is operated at 1090 nm as a broadband notch filter used for spectral flattening and as a bandpass filter with subnanometer bandwidth. When used for spectral flattening the FWHM bandwidth is optimized so that only one acoustic frequency is needed. In this way the spectral variation of a fiber laser source is reduced from 4 dB to less than 0.3 dB within a bandwidth of 6 nm. In the bandpass configuration we obtain a minimum bandwidth of 0.85 nm. Because of a slight polarization dependence of the beat length the bandwidth is 0.91 nm for unpolarized sources. Full acousto-optic mode conversion is obtained at an 8-mW electrical input power to the acoustic transducer. In the bandpass configuration the tuning width is limited by the bandwidth of the required static mode converter. By replacing a uniform mode converter with a linearly chirped one we can increase the tuning range from approximately 10 to 50 nm.
doi_str_mv	10.1006/ofte.1997.0211
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The filter is operated at 1090 nm as a broadband notch filter used for spectral flattening and as a bandpass filter with subnanometer bandwidth. When used for spectral flattening the FWHM bandwidth is optimized so that only one acoustic frequency is needed. In this way the spectral variation of a fiber laser source is reduced from 4 dB to less than 0.3 dB within a bandwidth of 6 nm. In the bandpass configuration we obtain a minimum bandwidth of 0.85 nm. Because of a slight polarization dependence of the beat length the bandwidth is 0.91 nm for unpolarized sources. Full acousto-optic mode conversion is obtained at an 8-mW electrical input power to the acoustic transducer. In the bandpass configuration the tuning width is limited by the bandwidth of the required static mode converter. 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title	Acousto-optic Tunable Filters in Two-Mode Fibers
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