采用反复蒸馏提纯技术和开放式动态蒸馏相结合的工艺,制备了高纯As-S玻璃,基本消除了玻璃在2.9、4和6.3μm处的杂质吸收。利用旋转法制备出壁厚均匀、表面质量优异的硫系玻璃套管。采用棒管法拉制出丝径50μm,芯径40μm具有芯包结构的...采用反复蒸馏提纯技术和开放式动态蒸馏相结合的工艺,制备了高纯As-S玻璃,基本消除了玻璃在2.9、4和6.3μm处的杂质吸收。利用旋转法制备出壁厚均匀、表面质量优异的硫系玻璃套管。采用棒管法拉制出丝径50μm,芯径40μm具有芯包结构的硫系玻璃光纤。拉制的As-S光纤机械性能和光学性能优异,光纤丝径波动小于1%,弯曲半径优于4 mm,中红外波段损耗基线小于0.5 d B/m。制备出像元呈正方形排列,出端规格64×9,入端规格192×3,用于线–面转换的红外传像束,像束断丝率为2.7%。利用该异型传像束成功实现了长线阵的红外推扫成像。展开更多
We report the design and simulation results of a solid-core Bragg fiber with 3-bilayer periodic cladding. The simulation results present single mode bandgap guidance, a large effective area of -400 μm2 around 1.08 μ...We report the design and simulation results of a solid-core Bragg fiber with 3-bilayer periodic cladding. The simulation results present single mode bandgap guidance, a large effective area of -400 μm2 around 1.08 μm, a very low bend loss of 0.038dB/m at 1.08μm even under tight bend radius (R = 4cm), and excellent beam quality. The results indicate that the proposed fiber could be a competitive solution for high-power fiber laser applications.展开更多
文摘采用反复蒸馏提纯技术和开放式动态蒸馏相结合的工艺,制备了高纯As-S玻璃,基本消除了玻璃在2.9、4和6.3μm处的杂质吸收。利用旋转法制备出壁厚均匀、表面质量优异的硫系玻璃套管。采用棒管法拉制出丝径50μm,芯径40μm具有芯包结构的硫系玻璃光纤。拉制的As-S光纤机械性能和光学性能优异,光纤丝径波动小于1%,弯曲半径优于4 mm,中红外波段损耗基线小于0.5 d B/m。制备出像元呈正方形排列,出端规格64×9,入端规格192×3,用于线–面转换的红外传像束,像束断丝率为2.7%。利用该异型传像束成功实现了长线阵的红外推扫成像。
基金Supported by the National Natural Science Foundation of China under Grant No 61405240
文摘We report the design and simulation results of a solid-core Bragg fiber with 3-bilayer periodic cladding. The simulation results present single mode bandgap guidance, a large effective area of -400 μm2 around 1.08 μm, a very low bend loss of 0.038dB/m at 1.08μm even under tight bend radius (R = 4cm), and excellent beam quality. The results indicate that the proposed fiber could be a competitive solution for high-power fiber laser applications.