Polaritonic Hybrid-Epsilon-near-Zero Modes: Beating the Plasmonic Confinement vs Propagation-Length Trade-Off with Doped Cadmium Oxide Bilayers.

Runnerstrom, Evan L; Kelley, Kyle P; Folland, Thomas G; Nolen, J Ryan; Engheta, Nader; Caldwell, Joshua D; Maria, Jon-Paul

Runnerstrom, Evan L; Kelley, Kyle P; Folland, Thomas G; Nolen, J Ryan; Engheta, Nader; Caldwell, Joshua D; Maria, Jon-Paul.

Afiliação

Runnerstrom EL; Department of Materials Science and Engineering , North Carolina State University , Raleigh , North Carolina 27695 , United States.
Kelley KP; Department of Materials Science and Engineering , North Carolina State University , Raleigh , North Carolina 27695 , United States.
Folland TG; Department of Mechanical Engineering , Vanderbilt University , Nashville , Tennessee 37212 , United States.
Nolen JR; Department of Mechanical Engineering , Vanderbilt University , Nashville , Tennessee 37212 , United States.
Engheta N; Interdisciplinary Materials Science Program , Vanderbilt University , Nashville , Tennessee 37212 , United States.
Caldwell JD; Department of Electrical and Systems Engineering , University of Pennsylvania , Philadelphia , Pennsylvania 19104 , United States.
Maria JP; Department of Mechanical Engineering , Vanderbilt University , Nashville , Tennessee 37212 , United States.

Nano Lett ; 19(2): 948-957, 2019 02 13.

Article em En | MEDLINE | ID: mdl-30582700

Palavras-chave

Epsilon-near-zero; epitaxy; infrared; mode confinement; nanophotonics; strong coupling; surface plasmon

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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Tipo de estudo: Prognostic_studies Idioma: En Revista: Nano Lett Ano de publicação: 2019 Tipo de documento: Article País de afiliação: Estados Unidos País de publicação: Estados Unidos

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