Characterization of SiGe thin films using a laboratory X-ray instrument

Tatjana Ulyanenkova; Maksym Myronov; Andrei Benediktovitch; Alexander Mikhalychev; John Halpin; Alex Ulyanenkov

doi:10.1107/S0021889813010492

Characterization of SiGe thin films using a laboratory X-ray instrument

Tatjana Ulyanenkova
, Maksym Myronov
, Andrei Benediktovitch
, Alexander Mikhalychev
, John Halpin
, Alex Ulyanenkov

SAMS UHI

Résultats de recherche: Article › Revue par des pairs

8 Citations (Scopus)

Résumé

The technique of reciprocal space mapping using X-rays is a recognized tool for the nondestructive characterization of epitaxial films. X-ray scattering from epitaxial Si0.4Ge0.6 films on Si(100) substrates using a laboratory X-ray source was investigated. It is shown that a laboratory source with a rotating anode makes it possible to investigate the material parameters of the super-thin 2-6 nm layers. For another set of partially relaxed layers, 50-200 nm thick, it is shown that from a high-resolution reciprocal space map, conditioned from diffuse scattering on dislocations, it is possible to determine quantitatively from the shape of a diffraction peak (possessing no thickness fringes) additional parameters such as misfit dislocation density and layer thickness as well as concentration and relaxation.

langue originale	English
Pages (de - à)	898-902
Nombre de pages	5
journal	Journal of Applied Crystallography
Volume	46
Numéro de publication	4
Les DOIs	https://doi.org/10.1107/S0021889813010492
état	Published - 1 août 2013

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10.1107/S0021889813010492

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abstract = "The technique of reciprocal space mapping using X-rays is a recognized tool for the nondestructive characterization of epitaxial films. X-ray scattering from epitaxial Si0.4Ge0.6 films on Si(100) substrates using a laboratory X-ray source was investigated. It is shown that a laboratory source with a rotating anode makes it possible to investigate the material parameters of the super-thin 2-6 nm layers. For another set of partially relaxed layers, 50-200 nm thick, it is shown that from a high-resolution reciprocal space map, conditioned from diffuse scattering on dislocations, it is possible to determine quantitatively from the shape of a diffraction peak (possessing no thickness fringes) additional parameters such as misfit dislocation density and layer thickness as well as concentration and relaxation.",

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AU - Ulyanenkova, Tatjana

AU - Myronov, Maksym

AU - Benediktovitch, Andrei

AU - Mikhalychev, Alexander

AU - Halpin, John

AU - Ulyanenkov, Alex

N1 - CC-BY The author was not affiliated to SAMS at the time of publication.

PY - 2013/8/1

Y1 - 2013/8/1

N2 - The technique of reciprocal space mapping using X-rays is a recognized tool for the nondestructive characterization of epitaxial films. X-ray scattering from epitaxial Si0.4Ge0.6 films on Si(100) substrates using a laboratory X-ray source was investigated. It is shown that a laboratory source with a rotating anode makes it possible to investigate the material parameters of the super-thin 2-6 nm layers. For another set of partially relaxed layers, 50-200 nm thick, it is shown that from a high-resolution reciprocal space map, conditioned from diffuse scattering on dislocations, it is possible to determine quantitatively from the shape of a diffraction peak (possessing no thickness fringes) additional parameters such as misfit dislocation density and layer thickness as well as concentration and relaxation.

AB - The technique of reciprocal space mapping using X-rays is a recognized tool for the nondestructive characterization of epitaxial films. X-ray scattering from epitaxial Si0.4Ge0.6 films on Si(100) substrates using a laboratory X-ray source was investigated. It is shown that a laboratory source with a rotating anode makes it possible to investigate the material parameters of the super-thin 2-6 nm layers. For another set of partially relaxed layers, 50-200 nm thick, it is shown that from a high-resolution reciprocal space map, conditioned from diffuse scattering on dislocations, it is possible to determine quantitatively from the shape of a diffraction peak (possessing no thickness fringes) additional parameters such as misfit dislocation density and layer thickness as well as concentration and relaxation.

KW - high-resolution reciprocal space mapping

KW - misfit dislocation

KW - partly relaxed epitaxial films

KW - thin films

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EP - 902

JO - Journal of Applied Crystallography

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IS - 4

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Characterization of SiGe thin films using a laboratory X-ray instrument

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