Department of Electrical Engineering-Systems, University of Southern California,3740 McClintock Avenue, EEB 500, Los Angeles, California, 90089, USA.
Opt Lett. 2010 Jun 1;35(11):1819-21. doi: 10.1364/OL.35.001819.
We demonstrate a variable optical delay element that uses tunable wavelength conversion and phase conjugation in highly nonlinear fiber and uses chromatic dispersion in dispersion-compensating fiber. A continuous delay of up to 1.16mus, equaling a >110,000 time-delay bit-rate product for 100 Gbit/s non-return-to-zero differential quadrature phase-shift-keying (NRZ-DQSPK) and >55,000 for 50 Gbit/s NRZ differential phase-shift-keying (NRZ-DPSK) modulation formats, is demonstrated. Bit error rates <10(-9) are demonstrated for each waveform at various delay settings.
我们展示了一种可变光延迟元件,它利用在高非线性光纤中的可调谐波长转换和相位共轭,以及在色散补偿光纤中的色度色散。我们演示了长达 1.16μs 的连续延迟,对于 100Gbit/s 非归零差分四相相移键控 (NRZ-DQSPK) 调制格式,这相当于超过 110,000 倍的延迟-比特率乘积,对于 50Gbit/s NRZ 差分相移键控 (NRZ-DPSK) 调制格式,这相当于超过 55,000 倍的延迟-比特率乘积。我们在各种延迟设置下对每种波形都演示了误码率 <10(-9)。