Tunable and reconfigurable microwave photonic filter based on Fourier domain optical processor and cascaded fiber rings

A tunable and reconfigurable microwave photonic filter (MPF) based on a Fourier domain optical processor (FD-OP) and cascaded fiber rings is proposed and demonstrated. A stable and multiple wavelengths source can be realized by using a broadband source and a waveshaper. The multiple wavelengths sour...

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Veröffentlicht in:	Laser physics 2019-11, Vol.29 (11), p.115103
Hauptverfasser:	Chen, Xue, Song, Dianyou, Tong, Zhengrong, Zhang, Weihua
Format:	Artikel
Sprache:	eng
Schlagworte:	cascaded fiber rings Fourier domain optical processor (FD-OP) microwave photonic filter (MPF) reconfigurable tunable
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container_title	Laser physics
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creator	Chen, Xue Song, Dianyou Tong, Zhengrong Zhang, Weihua
description	A tunable and reconfigurable microwave photonic filter (MPF) based on a Fourier domain optical processor (FD-OP) and cascaded fiber rings is proposed and demonstrated. A stable and multiple wavelengths source can be realized by using a broadband source and a waveshaper. The multiple wavelengths source with different wavelength spacings is achieved by programming the waveshaper. Two fiber rings of the same structure are cascaded together to achieve a high main sidelobe suppression ratio (MSSR) and a high Q factor. The FD-OP is induced to add additional phase shifts to achieve tunability. When the number of taps is 60, by introducing cascaded two-fiber rings and the FD-OP, the MSSR is 59.356 dB, the maximum Q factor is 470.895 and the 3dB bandwidth of the filter is 0.019 GHz. The simulating results show that the center frequency continuously tuned from 4.47-13.41 GHz. The tunability and reconfigurability of the MPF are well realized.
doi_str_mv	10.1088/1555-6611/ab458b
format	Article
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A stable and multiple wavelengths source can be realized by using a broadband source and a waveshaper. The multiple wavelengths source with different wavelength spacings is achieved by programming the waveshaper. Two fiber rings of the same structure are cascaded together to achieve a high main sidelobe suppression ratio (MSSR) and a high Q factor. The FD-OP is induced to add additional phase shifts to achieve tunability. When the number of taps is 60, by introducing cascaded two-fiber rings and the FD-OP, the MSSR is 59.356 dB, the maximum Q factor is 470.895 and the 3dB bandwidth of the filter is 0.019 GHz. The simulating results show that the center frequency continuously tuned from 4.47-13.41 GHz. 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A stable and multiple wavelengths source can be realized by using a broadband source and a waveshaper. The multiple wavelengths source with different wavelength spacings is achieved by programming the waveshaper. Two fiber rings of the same structure are cascaded together to achieve a high main sidelobe suppression ratio (MSSR) and a high Q factor. The FD-OP is induced to add additional phase shifts to achieve tunability. When the number of taps is 60, by introducing cascaded two-fiber rings and the FD-OP, the MSSR is 59.356 dB, the maximum Q factor is 470.895 and the 3dB bandwidth of the filter is 0.019 GHz. The simulating results show that the center frequency continuously tuned from 4.47-13.41 GHz. The tunability and reconfigurability of the MPF are well realized.</abstract><pub>IOP Publishing</pub><doi>10.1088/1555-6611/ab458b</doi><tpages>6</tpages></addata></record>
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title	Tunable and reconfigurable microwave photonic filter based on Fourier domain optical processor and cascaded fiber rings
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