Add to ORKGWe study the magnetic coupling between a metal-coated near-field probe and a photonic crystal nanocavity. The resonance of the nanocavity shifts to shorter wavelengths when the ringlike apex of the probe is above an antinode of the magnetic field of the cavity. We show that this can be attributed to a magnetic light-matter interaction and is in fact a manifestation of Lenz’s law at optical frequencies. We use these measurements to determine the magnetic polarizability of the apex of the probe and find good agreement with theory. We discuss how this method could be applied to study the electric and magnetic polarizibilities of nano-object
Photoinduced magnetic force between nanostructures, at optical frequencies, is investigated theoreti...
Charged particles like electrons moving in a magnetic field encounter Lorentz force, which governs t...
International audienceWe study the directional excitation of optical surface waves controlled by the...
We study the magnetic coupling between a metal-coated near-field probe and a photonic crystal nanoca...
In nano-optics, light is controlled at length scales smaller than the wavelength. Consequently, inve...
We demonstrate the nonresonant magnetic interaction at optical frequencies between a photonic crysta...
We demonstrate the nonresonant magnetic interaction at optical frequencies between a photonic crysta...
The fundamentals of the near-field interaction between a subwavelength metallic tip and a photonic-c...
The insertion of a metal-coated tip on the surface of a photonic crystal microcavity is used for sim...
Tailoring the electromagnetic field at the nanoscale has led to artificial materials exhibiting fasc...
Electric and magnetic optical fields carry the same amount of energy. Nevertheless, the efficiency w...
Photoinduced magnetic force between nanostructures, at optical frequencies, is investigated theoreti...
Charged particles like electrons moving in a magnetic field encounter Lorentz force, which governs t...
International audienceWe study the directional excitation of optical surface waves controlled by the...
We study the magnetic coupling between a metal-coated near-field probe and a photonic crystal nanoca...
In nano-optics, light is controlled at length scales smaller than the wavelength. Consequently, inve...
We demonstrate the nonresonant magnetic interaction at optical frequencies between a photonic crysta...
We demonstrate the nonresonant magnetic interaction at optical frequencies between a photonic crysta...
The fundamentals of the near-field interaction between a subwavelength metallic tip and a photonic-c...
The insertion of a metal-coated tip on the surface of a photonic crystal microcavity is used for sim...
Tailoring the electromagnetic field at the nanoscale has led to artificial materials exhibiting fasc...
Electric and magnetic optical fields carry the same amount of energy. Nevertheless, the efficiency w...
Photoinduced magnetic force between nanostructures, at optical frequencies, is investigated theoreti...
Charged particles like electrons moving in a magnetic field encounter Lorentz force, which governs t...
International audienceWe study the directional excitation of optical surface waves controlled by the...