a-Si:H的孔悬空键捕获截面

American Journal of Materials Science Pub Date : 2013-01-01 DOI:10.5923/J.MATERIALS.20130304.02

D. Goldie

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引用次数: 2

摘要

结果表明，悬空键态高斯分布的占位统计量可以解释在氢化非晶硅中，当费米能在导带边缘下从0.55 eV到1.05 eV之间系统地变化时，空穴能谱寿命值的测量变化。分析了掺杂对悬空键参数的影响，发现空穴捕获到带电(σh -)和中性(σh 0)悬空键态的最小横截面比要求σh - /σh 0≥5。因此，如果费米能量位于带隙的上半部分，则空穴的捕获由带电的悬空键主导。σh -和σh 0随温度(T)的变化而变化，σh∝T -β，这可能表明存在隧道效应

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Hole Dangling Bond Capture Cross-Sections in a-Si:H

It is demonstrated that the occupation statistics for a Gaussian distribution of dangling bond states may account for the measured variation of hole mob ility-lifetime values in hydrogenated amorphous silicon as the Fermi energy is systematically varied by doping fro m about 0.55 eV to 1.05 eV belo w the conduction band edge. An assessment of how the deduced dangling bond parameters may be influenced by underlying doping effects suggests that the min imu m cross-section ratio for hole capture into charged (σh - ) and neutral (σh 0 ) dangling bond states requires that σh - /σh 0 ≥ 5. The capture of holes is consequently dominated by charged dangling bonds provided the Fermi energy lies within the upper half of the band-gap. Both σh - and σh 0 are observed to depend upon temperature (T) as σh ∝ T -β wh ich may indicate the presence of tunnelling

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American Journal of Materials Science

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