The observation of increasing absorption nonlinearity and bistability without cavity in er doped fiber is reported.
报道了的掺铒光纤中观测到的吸收增加非线性和无腔光学双稳运转。
Taking into account the fifth-order nonlinearity in the refractive index of the fiber, the dark pulse propagation in fibers is simulated numerically for the varying initial conditions.
考虑到光纤折射率的五阶非线性极化效应,本文对不同初始条件下,光纤中黑脉冲的传输进行了数值模拟分析。
With the success in linear dispersion compensation technique in optical fiber communication, a new limitation with nonlinearity will be accumulated when the length of fiber link increases.
随着线性色散补偿技术的成熟,光纤通信的另一个限制因素——非线性,将随着光纤链路的加长而积累起来。
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