中文摘要：

采用半导体光放大器（SOA）中的瞬态交叉相位调制效应是实现高速全光信号处理的有效途径．利用SOA和带宽为0．4am的窄带滤波器同时实现了重复频率为10GHz、脉冲宽度为10ps的同相和反相全光波长转换．当滤波器的中心波长相对于探测光载波波长蓝移0．25am或者红移0．05am时，得到反相波长转换；当滤波器的中心波长相对于探测光波长蓝移0．29am或者红移0．25am时，得到同相的波长转换．同时用数值模拟了从同相到反相波长转换的极性演化过程，理论分析和实验结果基本相符．

英文摘要：

All-optical wavelength conversion based on transient cross phase modulation of semiconductor optical amplifier （SOA） is a promising approach to achieve high-speed all-optical signal processing. We experimentally demonstrate inverted and non-inverted wavelength conversion （WC） based on single SOA and an optical bandpass filter with 0.4 nm bandwidth. When the central wavelength of the following filter is blue shifted by 0.25 nm or red shifted by 0.05 nm with respect to the wavelength of probe signal, the WC is inverted. When the filter detuning is blue shifted 0.29 nm or red shifted 0.25 nm, the WC is non-inverted. The polarity evolution from inverted WC to non-inverted WC is also presented with numerical simulation. The obtained results are in good agreement with the experiment.