Add to ORKGThe Mie scattering theory enables the exact determination of the scattered field as a function of the incident field. Here, we use this approach to calculate the Hermitian relationship between the incident field and the optical forces acting on the scattering objects. This Hermitian relationship defines also a set of orthogonal optical eigenmodes which deliver a natural basis to describe momentum transfer in light-matter interactions
For any optical system, optical eigenmodes describe solutions of Maxwells equations that are orthogo...
Azimuthal asymmetry is present in the Mie scattering pattern of light scattered by a homogeneous sph...
We report a new approach for accurate calculation of optical cross sections and internal and scatter...
The Mie scattering theory enables the exact determination of the scattered field as a function of th...
The optical eigenmode representation of light fields defines a natural orthogonal basis of solutions...
In linear optics, the concept of a mode is well established. Often these modes correspond to a set o...
When light scatters from an object, it can impart some physical quantity such as momentum or angular...
We report a mathematically rigorous technique which facilitates the optimization of various optical ...
Optical eigenmodes describe coherent solutions of Maxwells equations that are orthogonal to each oth...
Photon states can be represented using many families of orthogonal fields, such as plane waves, Lagu...
In linear optics, the concept of a mode or eigenmode is well established. Often these modes correspo...
For any optical system, optical eigenmodes describe solutions of Maxwells equations that are orthogo...
One century after Mie's original paper, Mie scattering is still a fertile field of scientific endeav...
International audienceMost of the resonant photonic structures behave like open cavities for light w...
The theory of optical forces on spherical scatterers is here generalized to arbitrary incident field...
For any optical system, optical eigenmodes describe solutions of Maxwells equations that are orthogo...
Azimuthal asymmetry is present in the Mie scattering pattern of light scattered by a homogeneous sph...
We report a new approach for accurate calculation of optical cross sections and internal and scatter...
The Mie scattering theory enables the exact determination of the scattered field as a function of th...
The optical eigenmode representation of light fields defines a natural orthogonal basis of solutions...
In linear optics, the concept of a mode is well established. Often these modes correspond to a set o...
When light scatters from an object, it can impart some physical quantity such as momentum or angular...
We report a mathematically rigorous technique which facilitates the optimization of various optical ...
Optical eigenmodes describe coherent solutions of Maxwells equations that are orthogonal to each oth...
Photon states can be represented using many families of orthogonal fields, such as plane waves, Lagu...
In linear optics, the concept of a mode or eigenmode is well established. Often these modes correspo...
For any optical system, optical eigenmodes describe solutions of Maxwells equations that are orthogo...
One century after Mie's original paper, Mie scattering is still a fertile field of scientific endeav...
International audienceMost of the resonant photonic structures behave like open cavities for light w...
The theory of optical forces on spherical scatterers is here generalized to arbitrary incident field...
For any optical system, optical eigenmodes describe solutions of Maxwells equations that are orthogo...
Azimuthal asymmetry is present in the Mie scattering pattern of light scattered by a homogeneous sph...
We report a new approach for accurate calculation of optical cross sections and internal and scatter...