Design and Fabrication of Anti-reflection Coating for 1.55 μm Polarization-insensitive Semiconductor Optical Amplifiers

[in Chinese]; [in Chinese]; [in Chinese]; [in Chinese]

Journals >Acta Photonica Sinica >Volume 34 >Issue 5 >Page 758 > Article

Acta Photonica Sinica
Vol. 34, Issue 5, 758 (2005)

Design and Fabrication of Anti-reflection Coating for 1.55 μm Polarization-insensitive Semiconductor Optical Amplifiers

[in Chinese]^1、2, [in Chinese]¹, [in Chinese]², and [in Chinese]²

Author Affiliations

¹[in Chinese]

²[in Chinese]

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DOI: Cite this Article

[in Chinese], [in Chinese], [in Chinese], [in Chinese]. Design and Fabrication of Anti-reflection Coating for 1.55 μm Polarization-insensitive Semiconductor Optical Amplifiers[J]. Acta Photonica Sinica, 2005, 34(5): 758 Copy Citation Text

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References

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[2] Geraghty D F,Lee R B,Vahala K J,et al.Wavelength conversion up to 18 nm at 10 Gb/s by four-wave mixing in a semiconductor optical amplifier.IEEE Photon Technol Lett,1997,9(4):452～454

[3] Simoyama T,Kuwatsuka H,Little B E, et al.High-efficiency wavelength conversion using FWM in an SOA integrated DFB laser.IEEE Photon Technol Lett,2000,12(1):31～33

[4] Akiyama T,Kuwatsuka H,Simoyama T, et al.Design optimisation of SOA-integrated DFB laser wavelength converter.Electron Lett,2002,38(5):239～241

[5] Gallant D J,Tilton M L,Bossert D J, et al.Optimized single-layer antireflection coating for semiconductor laser.IEEE Photon Technol Lett,1997,9(3):300～302

[6] Lee J,Kamiya T.Improved characterization of multilayer antireflection coatings for broad-band semiconductor optical amplifiers.IEEE J Lightwave Technol,2000,18(12):2158 ～2166

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