Surface microstructure of GeSbSe chalcogenide thin films grown at oblique angle

R. J. Martín-Palma; J. V. Ryan; C. G. Pantano

doi:10.1063/1.2717261

Surface microstructure of GeSbSe chalcogenide thin films grown at oblique angle

R. J. Martín-Palma, J. V. Ryan, C. G. Pantano

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Surface analysis of GeSbSe chalcogenide thin films grown at normal incidence and at four different oblique evaporation angles (45°, 75°, 80°, and 85°) was performed by a combination of scanning electron microscopy and atomic force microscopy. Additionally, quantitative roughness and microstructural analyses of the GeSbSe chalcogenide thin films were performed. Increasing roughness and surface area for increasingly oblique evaporation angle were observed, following an exponential relationship in both cases. Two-dimensional power spectral density analysis further supported the exponential behavior of the surface characteristic feature size. The notable increase of roughness and surface area with increasing evaporation oblique angle can have a significant effect on the further development of optical sensors.

Original language	English (US)
Article number	083513
Journal	Journal of Applied Physics
Volume	101
Issue number	8
DOIs	https://doi.org/10.1063/1.2717261
State	Published - 2007

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1063/1.2717261

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title = "Surface microstructure of GeSbSe chalcogenide thin films grown at oblique angle",

abstract = "Surface analysis of GeSbSe chalcogenide thin films grown at normal incidence and at four different oblique evaporation angles (45°, 75°, 80°, and 85°) was performed by a combination of scanning electron microscopy and atomic force microscopy. Additionally, quantitative roughness and microstructural analyses of the GeSbSe chalcogenide thin films were performed. Increasing roughness and surface area for increasingly oblique evaporation angle were observed, following an exponential relationship in both cases. Two-dimensional power spectral density analysis further supported the exponential behavior of the surface characteristic feature size. The notable increase of roughness and surface area with increasing evaporation oblique angle can have a significant effect on the further development of optical sensors.",

author = "Mart{\'i}n-Palma, {R. J.} and Ryan, {J. V.} and Pantano, {C. G.}",

note = "Funding Information: The authors would like to acknowledge National Science Foundation{\textquoteright}s support through the International Materials Institute for New Functionality in Glass (IMI-NFG) (Grant No. DMR-0409588).",

year = "2007",

doi = "10.1063/1.2717261",

language = "English (US)",

volume = "101",

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T1 - Surface microstructure of GeSbSe chalcogenide thin films grown at oblique angle

AU - Martín-Palma, R. J.

AU - Ryan, J. V.

AU - Pantano, C. G.

N1 - Funding Information: The authors would like to acknowledge National Science Foundation’s support through the International Materials Institute for New Functionality in Glass (IMI-NFG) (Grant No. DMR-0409588).

PY - 2007

Y1 - 2007

N2 - Surface analysis of GeSbSe chalcogenide thin films grown at normal incidence and at four different oblique evaporation angles (45°, 75°, 80°, and 85°) was performed by a combination of scanning electron microscopy and atomic force microscopy. Additionally, quantitative roughness and microstructural analyses of the GeSbSe chalcogenide thin films were performed. Increasing roughness and surface area for increasingly oblique evaporation angle were observed, following an exponential relationship in both cases. Two-dimensional power spectral density analysis further supported the exponential behavior of the surface characteristic feature size. The notable increase of roughness and surface area with increasing evaporation oblique angle can have a significant effect on the further development of optical sensors.

AB - Surface analysis of GeSbSe chalcogenide thin films grown at normal incidence and at four different oblique evaporation angles (45°, 75°, 80°, and 85°) was performed by a combination of scanning electron microscopy and atomic force microscopy. Additionally, quantitative roughness and microstructural analyses of the GeSbSe chalcogenide thin films were performed. Increasing roughness and surface area for increasingly oblique evaporation angle were observed, following an exponential relationship in both cases. Two-dimensional power spectral density analysis further supported the exponential behavior of the surface characteristic feature size. The notable increase of roughness and surface area with increasing evaporation oblique angle can have a significant effect on the further development of optical sensors.

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Surface microstructure of GeSbSe chalcogenide thin films grown at oblique angle

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