采用反应氯气气氛下水平区域熔融生长单晶的方法对卤化银原料进行超提纯,反应氯气气氛是由裂解低沸点碳氯化合物得到;化合物的通式为CHnCl4-n(n=0,1,2).提纯的温度为450~500℃,温区移动速度为0.2~0.8mm/min;载流气体Ar的流量为80~160mL/min.提纯后的卤化银原料红外吸收光谱显示,在4000~800cm-1(2.5~12.5μm)区域内的吸收随波长的增加而降低,中红外4000~600cm-1(2.5~16μm)区域是卤化银材料最佳的传输波段.用此原料制成的光纤可传输3.3~16μm中红外光谱;传输10.6μmCO2激光的损耗为0.3~0.5dB/m.
The material of silver halide was ultrapurified by horizontal zone melting purification in reacting
chlorine atmosphere. The chlorine atmosphere was made by decomposed chlorocarbon with low boiling point [CHnCl4-n(n=0,1,2)].
The purification parameters were as follows: temperature 450~500℃, speed of zone 0.2~0.8mm/min and the carrier gas Ar 80~160mL/min. Measurement results show that the infrared absorbance
of silver halide will decrease as wavelength increases at 2.5~12.5μm (4000~800cm-1) after the ultrapurification. The silver halide fiber is
a well transparent medium for transmitting middle infrared at 2.5~16μm (4000~600cm-1). Forurier transform infrared
spectra (FTIR) show that the transmittance of the fiber is better at 3.3~16μm. The loss is 0.3~0.5dB/m at 10.6μm.
参考文献
| [1] | Paiss I, et al. SPIE Vol.1591“Infrared Fiber Optics III?”, 1991. 70--82. [2] Paiss I, et al. SPIE Vol.1420 “Optical Fibers in Medicine?”, 1991. 141--148. [3] Moser F, et al SPIE Vol.1228 “Infrared Fiber Optics II?”, 1990. 128--139. [4] 高建平, 等(GAO Jian-Ping, et al). 无机材料学报(Journal of Inorganic Materials), 2000, 15 (3): 421--424. [5] 高建平, 等(GAO Jian-Ping, et al). 无机材料学报(Journal of Inorganic Materials), 2000, 15 (1): 119--123. [6] 高建平, 等(GAO Jian-Ping, et al). 材料导报(Materials review), 2000, 14 (9): 60--62. |
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