Abstract
Dielectric sub-wavelength particles have opened up a new platform for realization of magnetic light. Recently, we have demonstrated that a dipole emitter by a sub-wavelength fiber leads to an enhanced magnetic response. Here, we experimentally demonstrate an enhanced magnetic dipole source in the terahertz frequency range. By placing the fiber next to the hole in a metal screen, we find that the radiation power can be enhanced more than one order of magnitude. The enhancement is due to the excitation of the Mie-type resonances in the fiber. We demonstrate that such a system is equivalent to a double-fiber system excited by a magnetic source. This coupled magnetic dipole and optical fiber system can be considered a unit cell of metasurfaces for manipulation of terahertz radiation and is a proof-of-concept of a possibility to achieve enhanced radiation of a dipole source in proximity of a sub-wavelength fiber. It can also be scaled down to optical frequencies opening up promising avenues for developing integrated nanophotonic devices such as nanoantennas or lasers on fibers.
Highlights
Subwavelength dielectric structures provide a platform for strong light matter interaction with breakthrough application in nanoantennas, nanolasers, metasurfaces, and metadevices.[1]
We have experimentally demonstrated that a subwavelength fiber in front of a sub-wavelength aperture unidirectionally enhances the forward emission more than one order of magnitude
We have demonstrated that the aperture-fiber system is equivalent of an magnetic dipole (MD)-double fiber system
Summary
This experiment is the first proof-of-concept of radiation enhancement of an MD dipole source in the vicinity of a subwavelength fiber and the first observation of the Purcell effect for a magnetic dipole source in the THz frequency range. Utilizing guided modes of the fiber will open up new avenues in developing integrated devices
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