Publication: Aligned Carbon Nanotubes as Polarization-Sensitive, Molecular Near-Field Detectors
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Date
2009
Published Version
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Publisher
National Academy of Sciences
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Citation
Cubukcu, Ertugrul, Fatih Degirmenci, Coskun Kocabas, Mariano A. Zimmler, John A. Rogers, Federico Capasso. 2009. Aligned carbon nanotubes as polarization-sensitive, molecular near-field detectors. Proceedings of the National Academy of Sciences 106(8): 2495-2499.
Research Data
Abstract
Near-field scanning optical microscopes are widely used in imaging of subwavelength features in various material systems and nanostructures. For a variety of applications, polarization-sensitive near-field probes can provide valuable information on the nature and symmetry of the imaged nanoparticles and emitters. Conventional near-field optical microscopy lacks in-plane polarization sensitivity. Here, we use aligned single-wall carbon nanotubes as polarization-sensitive molecular scale probes to image the transverse near-field components of an optical Hertzian dipole antenna. Because of the Raman “antenna effect” in carbon nanotubes, only the near-field components along the nanotube axis are detected. These findings demonstrate that aligned carbon nanotubes can be used as polarization-sensitive near-field detectors.
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Keywords
optical antenna, plasmonics
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