Abstract
Abstract The effect of alloying of hydrogenated amorphous silicon (a-Si: X :H, with X = O, N or C) on low-temperature photoluminescence and the optical properties is described and discussed. It is found that, for all alloys with a wider optical gap than a-Si: H, that is a-Si:O:H, a-Si t N:H and a-Si:C:H, the photoluminescence energy and the linewidth increase with increasing optical gap in the same way. Alloying with germanium leads to a decreasing optical gap. Differences between the wide-bandgap alloys and a-Si:Ge:H are observed when the changes in the optical gap, the photoluminescence energy, the linewidth and the slope of the absorption edge are compared. A surprising result is, however, that the difference in the optical gap and the photoluminescence energy is related to the photoluminescence linewidth and the slope of the band tail in the same way for all alloys. In a limited energy range, hydrogen has a similar effect on the optical gap as oxygen, nitrogen and carbon but the relation between the o...
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