Ion-beam-milled graphite nanoribbons as mesoscopic carbon-based polarizers

We demonstrate optical reflectivity and Raman responses of graphite microstructures as a function of light polarization when the incident light is applied perpendicular to the material's stacking direction (c-axis). For this, we employed novel graphite nanoribbons with edges polished through io...

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Veröffentlicht in:	Applied physics letters 2023-07, Vol.123 (3)
Hauptverfasser:	Muszyński, Marcin, Antoniazzi, Igor, Camargo, Bruno
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied physics Carbon Graphite Incident light Ion beams Mechanical polishing Nanoribbons Polarization Polarizers Reflectance
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container_title	Applied physics letters
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creator	Muszyński, Marcin Antoniazzi, Igor Camargo, Bruno
description	We demonstrate optical reflectivity and Raman responses of graphite microstructures as a function of light polarization when the incident light is applied perpendicular to the material's stacking direction (c-axis). For this, we employed novel graphite nanoribbons with edges polished through ion-beam etching. In this unique configuration, a strong polarization dependence of the D, G, and 2D Raman modes is observed. At the same time, polarized reflectivity measurements demonstrate the potential of such a device as a carbon-based, on-chip polarizer. We discuss the advantages of the proposed fabrication method as opposed to the mechanical polishing of bulk crystals.
doi_str_mv	10.1063/5.0147673
format	Article
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subjects	Applied physics Carbon Graphite Incident light Ion beams Mechanical polishing Nanoribbons Polarization Polarizers Reflectance
title	Ion-beam-milled graphite nanoribbons as mesoscopic carbon-based polarizers
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