Magnetic Near Field Imaging with Electron Energy Loss Spectroscopy Based on Babinet's Principle
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Date
Authors
Horák, Michal
Křápek, Vlastimil
Hrtoň, Martin
Konečná, Andrea
Ligmajer, Filip
Stöger-Pollach, Michael
Šikola, Tomáš
Advisor
Referee
Mark
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Volume Title
Publisher
Cambridge University Press
0000-0001-6503-8294 Altmetrics
Abstract
We present a study of Babinet’s principle of complementarity in plasmonics focused on measuring the magnetic near field by EELS. We have studied bow-tie and diabolo antennas and elementary disc-shaped plasmonic antennas.
We present a study of Babinet’s principle of complementarity in plasmonics focused on measuring the magnetic near field by EELS. We have studied bow-tie and diabolo antennas and elementary disc-shaped plasmonic antennas.
We present a study of Babinet’s principle of complementarity in plasmonics focused on measuring the magnetic near field by EELS. We have studied bow-tie and diabolo antennas and elementary disc-shaped plasmonic antennas.
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Citation
MICROSCOPY AND MICROANALYSIS. 2020, vol. 26, issue S2, p. 2628-2630.
https://www.cambridge.org/core/journals/microscopy-and-microanalysis/article/magnetic-near-field-imaging-with-electron-energy-loss-spectroscopy-based-on-babinets-principle/02CE30B39FB12CAE824CA8745FD3A590
https://www.cambridge.org/core/journals/microscopy-and-microanalysis/article/magnetic-near-field-imaging-with-electron-energy-loss-spectroscopy-based-on-babinets-principle/02CE30B39FB12CAE824CA8745FD3A590
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Peer-reviewed
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Accepted version
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en