A. Seiler scite author profile

We report a systematic lattice dynamics study of EuSi_{2} films and nanoislands by in situ nuclear inelastic scattering on ^{151}Eu and ab initio theory. The Eu-partial phonon density of states of the nanoislands exhibits anomalous excess of phonon states at low and high energies, not present in the bulk and at the EuSi_{2}(001) surface. We demonstrate that atomic vibrations along the island-substrate interface give rise to phonon states both at low and high energies, while atomic vibrations across the island-island interface result in localized high-energy phonon modes.

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Erratum: Lattice Dynamics of EuO: Evidence for Giant Spin-Phonon Coupling [Phys. Rev. Lett. 116 , 185501 (2016)]

Pradip¹,

Piekarz²,

Bosak³

et al. 2017

Phys. Rev. Lett.

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A portable ultrahigh-vacuum system for advanced synchrotron radiation studies of thin films and nanostructures: EuSi₂nano-islands

Ibrahimkutty

Seiler

Prüßmann

et al. 2015

J Synchrotron Radiat

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A portable ultrahigh-vacuum system optimized for in situ variable-temperature X-ray scattering and spectroscopy experiments at synchrotron radiation beamlines was constructed and brought into operation at the synchrotron radiation facility ANKA of the Karlsruhe Institute of Technology, Germany. Here the main features of the new instrument are described and its capabilities demonstrated. The surface morphology, structure and stoichiometry of EuSi2 nano-islands are determined by in situ grazing-incidence small-angle X-ray scattering and X-ray absorption spectroscopy. A size reduction of about a factor of two of the nano-islands due to silicide decomposition and Eu desorption is observed after sample annealing at 1270 K for 30 min.

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A. Seiler

Lattice Dynamics of EuO: Evidence for Giant Spin-Phonon Coupling

Growth and structure characterization of EuSi 2 films and nanoislands on vicinal Si(001) surface

Anomalous Lattice Dynamics ofEuSi2Nanoislands: Role of Interfaces Unveiled

Erratum: Lattice Dynamics of EuO: Evidence for Giant Spin-Phonon Coupling [Phys. Rev. Lett. 116 , 185501 (2016)]

A portable ultrahigh-vacuum system for advanced synchrotron radiation studies of thin films and nanostructures: EuSi₂nano-islands

Contact Info

Product

Resources

About

A. Seiler

Lattice Dynamics of EuO: Evidence for Giant Spin-Phonon Coupling

Growth and structure characterization of EuSi 2 films and nanoislands on vicinal Si(001) surface

Anomalous Lattice Dynamics ofEuSi2Nanoislands: Role of Interfaces Unveiled

Erratum: Lattice Dynamics of EuO: Evidence for Giant Spin-Phonon Coupling [Phys. Rev. Lett. 116 , 185501 (2016)]

A portable ultrahigh-vacuum system for advanced synchrotron radiation studies of thin films and nanostructures: EuSi2nano-islands

Contact Info

Product

Resources

About

A portable ultrahigh-vacuum system for advanced synchrotron radiation studies of thin films and nanostructures: EuSi₂nano-islands