We demonstrate experimentally the detection of magnetic force at optical frequencies, defined as the dipolar Lorentz force exerted on a photoinduced magnetic dipole excited by the magnetic component of light. Historically, this magnetic force has been considered elusive since, at optical frequencies, magnetic effects are usually overshadowed by the interaction of the electric component of light, making it difficult to recognize the direct magnetic force from the dominant electric forces. To overcome this challenge, we develop a photoinduced magnetic force characterization method that exploits a magnetic nanoprobe under structured light illumination. This approach enables the direct detection of the magnetic force, revealing the magnetic nea...
The nature of light as an electromagnetic wave with transverse components has been confirmed using o...
The nature of light as an electromagnetic wave with transverse components has been confirmed using o...
The ability to image the optical near-fields of nanoscale structures, map their morphology, and conc...
Photoinduced magnetic force between nanostructures, at optical frequencies, is investigated theoreti...
Optical forces on nanostructures are usually characterized by their interaction with the electric fi...
Azimuthally polarized beams are gaining fundamental importance for near-field force microscopy syste...
Control of light–matter interactions at the nanoscale has advanced fields such as quantum optics1, p...
Recent work has shown that optical magnetism, generally considered a challenging light–matter intera...
In nano-optics, light is controlled at length scales smaller than the wavelength. Consequently, inve...
When a beam of light is laterally confined, its field distribution can exhibit points where the loca...
Light-matter interactions enable the perception of specimen properties such as its shape and dimensi...
NEWS COVERAGE: A news release based on this journal publication is available online: http://news.ric...
The objective of this dissertation is to develop a novel method to measure nanoscale optical field d...
The concept of magnetic nanoprobes (or magnetic nanoantennas), their excitation, and the capability ...
International audienceWe theoretically investigate a resonant inverse Faraday effect within individu...
The nature of light as an electromagnetic wave with transverse components has been confirmed using o...
The nature of light as an electromagnetic wave with transverse components has been confirmed using o...
The ability to image the optical near-fields of nanoscale structures, map their morphology, and conc...
Photoinduced magnetic force between nanostructures, at optical frequencies, is investigated theoreti...
Optical forces on nanostructures are usually characterized by their interaction with the electric fi...
Azimuthally polarized beams are gaining fundamental importance for near-field force microscopy syste...
Control of light–matter interactions at the nanoscale has advanced fields such as quantum optics1, p...
Recent work has shown that optical magnetism, generally considered a challenging light–matter intera...
In nano-optics, light is controlled at length scales smaller than the wavelength. Consequently, inve...
When a beam of light is laterally confined, its field distribution can exhibit points where the loca...
Light-matter interactions enable the perception of specimen properties such as its shape and dimensi...
NEWS COVERAGE: A news release based on this journal publication is available online: http://news.ric...
The objective of this dissertation is to develop a novel method to measure nanoscale optical field d...
The concept of magnetic nanoprobes (or magnetic nanoantennas), their excitation, and the capability ...
International audienceWe theoretically investigate a resonant inverse Faraday effect within individu...
The nature of light as an electromagnetic wave with transverse components has been confirmed using o...
The nature of light as an electromagnetic wave with transverse components has been confirmed using o...
The ability to image the optical near-fields of nanoscale structures, map their morphology, and conc...
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