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$Terahertz Metamaterials for Linear Polarization Conversion and Anomalous Refraction$

Terahertz Metamaterials for Linear Polarization Conversion and Anomalous Refraction

by Taylor, Antoinette J. , Zeng, Yong , Chen, Hou-Tong , Reiten, Matthew T. , Heyes, Jane E. , Dalvit, Diego A. R. , Grady, Nathaniel K. , Azad, Abul K. , Chowdhury, Dibakar Roy

in Arrays / Broadband transmission / composite materials / Conversion / Electromagnetic radiation / Electromagnetism / electronic chips / Electronics / Exact sciences and technology / Frequencies / Frequency ranges / Fundamental areas of phenomenology (including applications) / Geometric angles / light / Linear polarization / Materials science / Metrology / nanowires / Optics / Physics / Polarization / Polyimides / Refraction / Resonators / Signal bandwidth / Signal reflection / Simulations / synthetic products / Transmittance / Wave optics / Wave refraction / Wire

2013

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Terahertz Metamaterials for Linear Polarization Conversion and Anomalous Refraction

by Taylor, Antoinette J. , Zeng, Yong , Chen, Hou-Tong , Reiten, Matthew T. , Heyes, Jane E. , Dalvit, Diego A. R. , Grady, Nathaniel K. , Azad, Abul K. , Chowdhury, Dibakar Roy

2013

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$Terahertz Metamaterials for Linear Polarization Conversion and Anomalous Refraction$

Terahertz Metamaterials for Linear Polarization Conversion and Anomalous Refraction

by Taylor, Antoinette J. , Zeng, Yong , Chen, Hou-Tong , Reiten, Matthew T. , Heyes, Jane E. , Dalvit, Diego A. R. , Grady, Nathaniel K. , Azad, Abul K. , Chowdhury, Dibakar Roy

2013

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$Terahertz Metamaterials for Linear Polarization Conversion and Anomalous Refraction$

Journal Article

Terahertz Metamaterials for Linear Polarization Conversion and Anomalous Refraction

Taylor, Antoinette J.,

Zeng, Yong,

Chen, Hou-Tong,

Reiten, Matthew T.,

Heyes, Jane E.,

Dalvit, Diego A. R.,

Grady, Nathaniel K.,

Azad, Abul K.,

Chowdhury, Dibakar Roy

2013

Overview

Polarization is one of the basic properties of electromagnetic waves conveying valuable information in signal transmission and sensitive measurements. Conventional methods for advanced polarization control impose demanding requirements on material properties and attain only limited performance. We demonstrated ultrathin, broadband, and highly efficient metamaterial-based terahertz polarization converters that are capable of rotating a linear polarization state into its orthogonal one. On the basis of these results, we created metamaterial structures capable of realizing near-perfect anomalous refraction. Our work opens new opportunities for creating high-performance photonic devices and enables emergent metamaterial functionalities for applications in the technologically difficult terahertz-frequency regime.

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Publisher

American Association for the Advancement of Science,The American Association for the Advancement of Science

Subject

Arrays

/ Broadband transmission

/ composite materials

/ Conversion

/ Electromagnetic radiation

/ Electromagnetism

/ electronic chips