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We propose a novel technique to achieve a high speed real-time optical sampling system based on optical parametric amplification in high nonlinear fiber (HNLF). Linearly chirped pulses are obtained by the dispersive propagation of short pulses emitted by a mode-locked fiber laser. The pulses are then fed into an HNLF together with signal under sampling. Thanks to the optical parametric amplification effect in the HNLF, the amplitude information will be modulated onto the linearly chirped pulses. By employing optical band-pass filters or wavelength division multiplexing (WDM) technology before the receivers, simultaneous high speed optical sampling and optical serial-to-parallel conversion are achieved. We demonstrate the feasibility of the scheme by optical sampling a 10 Gb/s on-off keying (OOK) signal at a sampling rate of 40GS/s and simultaneously converting it into four 10 GS/s sampling outputs. And the 10 Gb/s OOK signal is reconstructed later by the four sampling outputs. The scheme is simple and of low cost, which makes it a good candidate in high speed real-time sampling system.
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Keywords:
- optical communication /
- optical sampling /
- optical parametric amplification /
- high nonlinear fiber (HNLF)
[1] Westlund M, Andrekson P A, Sunnerud H 2005 31 st European Conference on Optical Communication(ECOC 2005) 4 937
[2] [3] Kung-Li Deng, Runser R J, Glesk I, Prucnal P R 1998 Photonics Technology Letters, IEEE 10 397
[4] [5] Jungerman R L, Lee G, Buccafusca O, Kaneko Y, Itagaki N, Shioda R, Harada A, Nihei Y, Sucha G 2002 Photonics Technology Letters, IEEE 14 1148
[6] Kawanishi S, Yamamoto T, Nakazawa T, Fejer M M 2001 Electronic Letters 37 842
[7] [8] Li J, Hansryd J, Hedekvist P O, Andrekson P A, Knudsen S N 2001 IEEE Photonic Technology Letters 13 987
[9] [10] [11] Skold M, Westlund M, Sunnerud H, Andrekson P A 2009 Journal of Lightwave Technology 27 3662
[12] [13] Yang J, Yu J, Hu H, Zhang A, Zhang L, Wang W, Yang E 2008 Acta Phys. Sin. 57 4667(in Chinese)[江 阳、于晋龙、胡 浩、张爱旭、张立台、王文睿、杨恩泽 2008 57 2994]
[14] Azana J, Muriel M A 2000 IEEE Journal of Quantum Electronics 36 517
[15] [16] Almeida P J, Petropoulos P, Parmigiani F, Ibsen M, Richardson D J 2006 Journal of Lightwave Technology 24 2720
[17] -
[1] Westlund M, Andrekson P A, Sunnerud H 2005 31 st European Conference on Optical Communication(ECOC 2005) 4 937
[2] [3] Kung-Li Deng, Runser R J, Glesk I, Prucnal P R 1998 Photonics Technology Letters, IEEE 10 397
[4] [5] Jungerman R L, Lee G, Buccafusca O, Kaneko Y, Itagaki N, Shioda R, Harada A, Nihei Y, Sucha G 2002 Photonics Technology Letters, IEEE 14 1148
[6] Kawanishi S, Yamamoto T, Nakazawa T, Fejer M M 2001 Electronic Letters 37 842
[7] [8] Li J, Hansryd J, Hedekvist P O, Andrekson P A, Knudsen S N 2001 IEEE Photonic Technology Letters 13 987
[9] [10] [11] Skold M, Westlund M, Sunnerud H, Andrekson P A 2009 Journal of Lightwave Technology 27 3662
[12] [13] Yang J, Yu J, Hu H, Zhang A, Zhang L, Wang W, Yang E 2008 Acta Phys. Sin. 57 4667(in Chinese)[江 阳、于晋龙、胡 浩、张爱旭、张立台、王文睿、杨恩泽 2008 57 2994]
[14] Azana J, Muriel M A 2000 IEEE Journal of Quantum Electronics 36 517
[15] [16] Almeida P J, Petropoulos P, Parmigiani F, Ibsen M, Richardson D J 2006 Journal of Lightwave Technology 24 2720
[17]
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