Far-field subdiffraction optical microscopy using metamaterial crystals: Theory and simulations

Salandrino, Alessandro; Engheta, Nader

doi:10.1103/physrevb.74.075103

articlePhysical Review BAug 15, 2006BRONZE OA

Far-field subdiffraction optical microscopy using metamaterial crystals: Theory and simulations

ASAlessandro Salandrino NENader Engheta

University of Pennsylvania

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Abstract

Here we suggest and explore theoretically an idea for a far-field scanless optical microscopy with a subdiffraction resolution. We exploit the special dispersion characteristics of an anisotropic metamaterial crystal that is obliquely cut at its output plane, or has a curved output surface, in order to map the input field distribution onto the crystal's output surface with a compressed angular spectrum, resulting in a ``magnified'' image. This can provide a far-field imaging system with a resolution beyond the diffraction limits while no scanning is needed.

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Topics & keywords

Topics

Keywords

Optics
Resolution (logic)
Diffraction
Metamaterial
Angular spectrum method
Angular resolution (graph drawing)
Microscopy
Anisotropy

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