中文摘要：

提出并制备了一种新型微结构纤芯光子晶体光纤,即在椭圆纤芯中增加一排亚微米级的空气孔,提高了光纤的双折射值,改变了两个偏振基模的色散特性.通过有限元法数值模拟了该光纤的双折射、非线性和色散等特性,并优化结构参数.使用脉宽为15 ps,重复频率为45 MHz的激光抽运该光纤,通过调节抽运激光入射的偏振方向,实现了可调谐的宽带超连续谱.实验研究了输入激光的功率和偏振方向对超连续谱的影响,以及输出超连续谱的偏振特性：当脉冲偏振方向沿着主轴入射时,得到了800—1500 nm的线偏振超连续谱,输出谱的消光比为21.2 d B;当脉冲偏振方向逐渐远离主轴时,输出超连续谱的谱宽逐渐变窄,并且在与主轴呈处达到最小值.维持抽运脉冲功率不变,仅改变脉冲入射的偏振方向,能够实现300 nm谱宽可调谐的超连续谱.

英文摘要：

We report on a new kind of highly birefringent and highly nonlinear photonic crystal fiber with a row of sub-micron air hole in the fiber core. The diameters of air holes in fiber core and cladding are 0.2 μm and 6.6 μm respectively. The parameters of birefringence, nonlinear and dispersion coefficient of the fiber are simulated by finite element method. It, is found that the birefringence of the fiber can exist at the wavelengths up to 1550 nm, which is one order of magnitude higher than that of the traditional polarization-maintaining fiber. The zero-dispersion wavelengths of the fast axis and slow axis are 1050 nm and 1080 nm respectively. This fiber has a clear advantage over conventional fiber in continuum generation. Firstly, the polarization state of the pulse traveling in the fiber can be sustained along the fiber length and the extinction ratio is more than 20 dB. In addition, the pulses travel at different group velocities along the two polarization directions, which provide a convenient way of tuning the properties of the generated supercontinuum. Using this fiber as a nonlinear medium, an efficient generation of a tunable supercontinuum is demonstrated by pumping with 15 ps pulses of 1040 mn laser radiation, which is located in the normal dispersion region. A half-wave plate is used to vary the input polarization of the light pulse launched into the fiber, and the polarization of output supercontinuum is adjusted by a Glan prism at the same time. It is experimentally found that the polarization of pulse has a significant influence on the generation of the supercontinuum. When the linear polarization of the input pulse matches with the direction of the main axis of the fiber, the supercontinuum can be broadened over wavelength range of 800-1500 nm, and the extinction ratio is 21.2 dB. The polarization direction of the output SC is found to coincide with the pump pulse. When the angle between the polarization of the input pulse and the fast axis is increased to 45 degrees, the output supereontinuum is