通过引入特征温度与硫系玻璃相匹配的高性能热塑性聚合物聚酰亚胺(PEI)作为光纤包层,结合复丝工艺制备了像素数为900的As2S3/PEI光纤传像束,表征了光纤的损耗、光纤束的断丝率、分辨率和串扰率。As2S3/PEI光纤在2~6μm波段传输性能优...通过引入特征温度与硫系玻璃相匹配的高性能热塑性聚合物聚酰亚胺(PEI)作为光纤包层,结合复丝工艺制备了像素数为900的As2S3/PEI光纤传像束,表征了光纤的损耗、光纤束的断丝率、分辨率和串扰率。As2S3/PEI光纤在2~6μm波段传输性能优异,背景损耗约为0.5 d B/m,在S-H杂质对应的4.0μm波长的峰值损耗为3.5 d B/m。单丝直径为80μm、像素数为900的光纤束的断丝率为1%,分辨率为7 line/mm,串扰率为1%,通过此传像束得到了清晰的电烙铁红外图像。而且,将PEI溶于二甲基乙酰胺(DMAC)后使光纤束表现出很好的柔性。采用这种类似"酸溶玻璃"的可溶于特定溶剂的热塑性聚合物,作为过渡介质,结合复丝工艺有望制备出柔性高分辨率硫系玻璃光纤传像束。展开更多
Two-dimensional(2D)materials have emerged as promising candidates for miniaturized optoelectronic devices due to their strong inelastic interactions with light.On the other hand,a miniaturized optical system also requ...Two-dimensional(2D)materials have emerged as promising candidates for miniaturized optoelectronic devices due to their strong inelastic interactions with light.On the other hand,a miniaturized optical system also requires strong elastic light–matter interactions to control the flow of light.Here we report that a single-layer molybdenum disulfide(MoS2)has a giant optical path length(OPL),around one order of magnitude larger than that from a single-layer of graphene.Using such giant OPL to engineer the phase front of optical beams we have demonstrated,to the best of our knowledge,the world’s thinnest optical lens consisting of a few layers of MoS2 less than 6.3 nm thick.By taking advantage of the giant elastic scattering efficiency in ultra-thin high-index 2D materials,we also demonstrated high-efficiency gratings based on a single-or few-layers of MoS2.The capability of manipulating the flow of light in 2D materials opens an exciting avenue towards unprecedented miniaturization of optical components and the integration of advanced optical functionalities.More importantly,the unique and large tunability of the refractive index by electric field in layered MoS2 will enable various applications in electrically tunable atomically thin optical components,such as micro-lenses with electrically tunable focal lengths,electrical tunable phase shifters with ultra-high accuracy,which cannot be realized by conventional bulk solids.展开更多
Organically modified silicate (ormosil) polymer with thermoplastic property is synthesised, and the preparation of ormosil optical fibre with low optical loss is reported in this paper.
This paper reports on the study and measurement of the third order optical nonlinearity in bulk sulfide-based chalcogenide glasses; The fabrication process of the ultrafast laser deposited As-S-(Se)-based chalcogenide...This paper reports on the study and measurement of the third order optical nonlinearity in bulk sulfide-based chalcogenide glasses; The fabrication process of the ultrafast laser deposited As-S-(Se)-based chalcogenide films and optical waveguides using two techniques: wet chemistry etching and plasma etching.展开更多
文摘通过引入特征温度与硫系玻璃相匹配的高性能热塑性聚合物聚酰亚胺(PEI)作为光纤包层,结合复丝工艺制备了像素数为900的As2S3/PEI光纤传像束,表征了光纤的损耗、光纤束的断丝率、分辨率和串扰率。As2S3/PEI光纤在2~6μm波段传输性能优异,背景损耗约为0.5 d B/m,在S-H杂质对应的4.0μm波长的峰值损耗为3.5 d B/m。单丝直径为80μm、像素数为900的光纤束的断丝率为1%,分辨率为7 line/mm,串扰率为1%,通过此传像束得到了清晰的电烙铁红外图像。而且,将PEI溶于二甲基乙酰胺(DMAC)后使光纤束表现出很好的柔性。采用这种类似"酸溶玻璃"的可溶于特定溶剂的热塑性聚合物,作为过渡介质,结合复丝工艺有望制备出柔性高分辨率硫系玻璃光纤传像束。
基金support from the ACT node of the Australian National Fabrication Facility(ANFF)and,particularlysupport from an ANU PhD scholarship+2 种基金the Office of Naval Research(USA)under grant number N00014-14-1-0300the Australian Research Council(grant number DE140100805)the ANU Major Equipment Committee.
文摘Two-dimensional(2D)materials have emerged as promising candidates for miniaturized optoelectronic devices due to their strong inelastic interactions with light.On the other hand,a miniaturized optical system also requires strong elastic light–matter interactions to control the flow of light.Here we report that a single-layer molybdenum disulfide(MoS2)has a giant optical path length(OPL),around one order of magnitude larger than that from a single-layer of graphene.Using such giant OPL to engineer the phase front of optical beams we have demonstrated,to the best of our knowledge,the world’s thinnest optical lens consisting of a few layers of MoS2 less than 6.3 nm thick.By taking advantage of the giant elastic scattering efficiency in ultra-thin high-index 2D materials,we also demonstrated high-efficiency gratings based on a single-or few-layers of MoS2.The capability of manipulating the flow of light in 2D materials opens an exciting avenue towards unprecedented miniaturization of optical components and the integration of advanced optical functionalities.More importantly,the unique and large tunability of the refractive index by electric field in layered MoS2 will enable various applications in electrically tunable atomically thin optical components,such as micro-lenses with electrically tunable focal lengths,electrical tunable phase shifters with ultra-high accuracy,which cannot be realized by conventional bulk solids.
文摘Organically modified silicate (ormosil) polymer with thermoplastic property is synthesised, and the preparation of ormosil optical fibre with low optical loss is reported in this paper.
文摘This paper reports on the study and measurement of the third order optical nonlinearity in bulk sulfide-based chalcogenide glasses; The fabrication process of the ultrafast laser deposited As-S-(Se)-based chalcogenide films and optical waveguides using two techniques: wet chemistry etching and plasma etching.
