空芯带隙型光子晶体光纤残余双折射特性研究

采用磁控溅射法, 在玻璃基底上一步沉积In₂S₃薄膜。研究了溅射功率对In₂S₃薄膜的成分、结构、表面形貌和光电性能的影响。结果表明: 所制备的所有薄膜均为β-In₂S₃, 无杂相存在, 且具有(222)面择优生长特性。溅射功率对薄膜的成分、厚度和结晶度具有明显的影响, 并因此影响薄膜的光学和电学性能。薄膜在100W沉积时最接近化学计量比, 薄膜的透过率随着溅射功率增大在500nm波段附近显著提高, 禁带宽度达到2.45eV, 同时电流密度增大两个数量级。

Characteristics of Residual Birefringence in Air-core Photonic-bandgap Fiber

In₂S₃ thin films were prepared on Corning glass substrates by radiofrequency magnetron sputtering process by different sputtering power. Properties of the deposited In₂S₃ films were investigated, such as composition, phase structure, morphology, optical properties and photoconductivity. The results indicated that improvement of film crystallization and optical transmittance at higher sputtering power and films sputtered by 100W exhibit the best quality. In2S3 thin films have a preferential orientation along the (222) direction and no other phases were observed. The films deposited under 100W own closest stoichiometric ratio, and the optical transmittance of the film is significantly improved at about 500nm and the energy band gap comes up to 2.45eV.The photocurrent density value of In2S3 film by 60W sputtering power is smaller than that of other In2S3 samples by two orders of magnitude.