Modelling of infrared optical constants for polycrystalline low pressure chemical vapour deposition ZnO:B films

Prunici P, Hamelmann F, Beyer W, Kurz H, Stiebig H (2013)
Journal of Applied Physics 113(21).

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Prunici P, Hamelmann F, Beyer W, Kurz H, Stiebig H. Modelling of infrared optical constants for polycrystalline low pressure chemical vapour deposition ZnO:B films. Journal of Applied Physics. 2013;113(21).
Prunici, P., Hamelmann, F., Beyer, W., Kurz, H., & Stiebig, H. (2013). Modelling of infrared optical constants for polycrystalline low pressure chemical vapour deposition ZnO:B films. Journal of Applied Physics, 113(21).
Prunici, P., Hamelmann, F., Beyer, W., Kurz, H., and Stiebig, H. (2013). Modelling of infrared optical constants for polycrystalline low pressure chemical vapour deposition ZnO:B films. Journal of Applied Physics 113.
Prunici, P., et al., 2013. Modelling of infrared optical constants for polycrystalline low pressure chemical vapour deposition ZnO:B films. Journal of Applied Physics, 113(21).
P. Prunici, et al., “Modelling of infrared optical constants for polycrystalline low pressure chemical vapour deposition ZnO:B films”, Journal of Applied Physics, vol. 113, 2013.
Prunici, P., Hamelmann, F., Beyer, W., Kurz, H., Stiebig, H.: Modelling of infrared optical constants for polycrystalline low pressure chemical vapour deposition ZnO:B films. Journal of Applied Physics. 113, (2013).
Prunici, P., Hamelmann, Frank, Beyer, W., Kurz, H., and Stiebig, Helmut. “Modelling of infrared optical constants for polycrystalline low pressure chemical vapour deposition ZnO:B films”. Journal of Applied Physics 113.21 (2013).
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