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  Controlling the Infrared Dielectric Function through Atomic-Scale Heterostructures

Ratchford, D. C., Winta, C., Chatzakis, I., Ellis, C. T., Paßler, N., Winterstein, J., et al. (in preparation). Controlling the Infrared Dielectric Function through Atomic-Scale Heterostructures.

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Datensatz-Permalink: https://hdl.handle.net/21.11116/0000-0002-0A3D-0 Versions-Permalink: https://hdl.handle.net/21.11116/0000-0002-0A3E-F
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1806.06792.pdf (Preprint), 2MB
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 Urheber:
Ratchford, Daniel C.1, Autor
Winta, Christopher2, Autor           
Chatzakis, Ioannis3, Autor
Ellis, Chase T.1, Autor
Paßler, Nikolai2, Autor           
Winterstein, Jonathan1, Autor
Dev, Pratibha4, Autor
Razdolski, Ilya2, Autor           
Tischler, Joseph G.1, Autor
Vurgaftman, Igor1, Autor
Katz, Michael B.5, Autor
Nepal, Neeraj1, Autor
Hardy, Matthew T.1, Autor
Hachtel, Jordan A.6, Autor
Idrobo, Juan Carlos6, Autor
Reinecke, Thomas L.1, Autor
Giles, Alexander J.1, Autor
Katzer, D. Scott1, Autor
Bassim, Nabil D.1, 7, Autor
Stroud, Rhonda M.1, Autor
Wolf, Martin2, Autor           Paarmann, Alexander2, Autor           Caldwell, Joshua D.1, 8, Autor mehr..
Affiliations:
1U.S. Naval Research Laboratory, Washington, D.C. 20375, United States, ou_persistent22              
2Physical Chemistry, Fritz Haber Institute, Max Planck Society, ou_634546              
3ASEE postdoctoral associate, U.S. Naval Research Laboratory, Washington, D.C. 20375, United States, ou_persistent22              
4Department of Physics and Astronomy, Howard University, Washington, DC 20059, United States, ou_persistent22              
5NRC postdoctoral associate, U.S. Naval Research Laboratory, Washington, D.C. 20375, United States, ou_persistent22              
6Center for Nanophase Materials Science, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA, ou_persistent22              
7Department of Materials Science and Engineering, JHE 357, McMaster University, Hamilton, Ontario, Canada, ou_persistent22              
8Department of Mechanical Engineering, Vanderbilt University, 2400 Highland Ave, Nashville, TN 37212, United States, ou_persistent22              

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Schlagwörter: Condensed Matter, Materials Science, cond-mat.mtrl-sci
 Zusammenfassung: Surface phonon polaritons (SPhPs) - the surface-bound electromagnetic modes of a polar material resulting from the coupling of light with optic phonons - offer immense technological opportunities for nanophotonics in the infrared (IR) spectral region. Here, we present a novel approach to overcome the major limitation of SPhPs, namely the narrow, material-specific spectral range where SPhPs can be supported, called the Reststrahlen band. We use an atomic-scale superlattice (SL) of two polar semiconductors, GaN and AlN, to create a hybrid material featuring layer thickness-tunable optic phonon modes. As the IR dielectric function is governed by the optic phonon behavior, such control provides a means to create a new dielectric function distinct from either constituent material and to tune the range over which SPhPs can be supported. This work offers the first glimpse of the guiding principles governing the degree to which the dielectric function can be designed using this approach.

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Sprache(n): eng - English
 Datum: 2018-06-18
 Publikationsstatus: Keine Angabe
 Seiten: 23
 Ort, Verlag, Ausgabe: -
 Inhaltsverzeichnis: -
 Art der Begutachtung: -
 Identifikatoren: arXiv: 1806.06792
URI: http://arxiv.org/abs/1806.06792
 Art des Abschluß: -

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