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The persistent photoconductivity (PPC) of amorphous Hg0.78Cd0.22Te: In films has been studied under illumination by super-bandgap light (a He-Ne laser, hν=1.96 eV, 30 mW/cm2) and sub-bandgap light (1000 K Blackbody source, the largest photon energies hνp=0.42 eV, 8.9 mW/cm2) in the range of 80-300 K. The persistent photoconductivity effect increases with increase in illumination intensity and illumination time. However, it decreases with increase in working temperature. The non-exponential decay of photoconductivity implies the presence of continuous distribution of defect states in amorphous Hg0.78Cd0.22Te: In films. These results indicate that the decay of photoconductivity is not governed by the carrier trapped in the intrinsic defects, but it may be due to light-induced defects under light illumination. 相似文献
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试验的低碳冷镦钢(/%:0.14~0.20C,≤0.20Si,0.3~1.0Mn,≤0.030P,≤0.035S,0~0.001 9B)连铸坯的生产流程为80 t BOF-LF-280 mm×325 mm坯连铸工艺。通过Gleeble-3500热模拟机研究了0.14%~0.20%C和0~0.001 9%B对该冷镦钢600~1 200℃力学性能的影响。结果表明,该钢第Ⅲ脆性区为700~900℃,当钢中C含量较高时,最低塑性的温度较低,硼促使该钢700~950℃脆性区出现两个低谷,但当硼含量增加到0.001 9%时,该钢的高温塑性得到改善。在850~1 200℃,各试验钢的塑性良好,适合较大程度的变形,矫直温度和热加工温度宜控制在850℃以上。 相似文献
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