13 pages, 6 figures. Includes a supporting information pdf and python examplesAbstract The multipole expansion of a nano-photonic structure’s electromagnetic response is a versatile tool to interpret optical effects in nano-optics, but it only gives access to the modes that are excited by a specific illumination. In particular the study of various illuminations requires multiple, costly numerical simulations. Here we present a formalism we call “generalized polarizabilities”, in which we combine the recently developed exact multipole decomposition [Alaee et al., Opt. Comms. 407, 17–21 (2018)] with the concept of a generalized field propagator. After an initial computation step, our approach allows to instantaneously obtain the exact multipo...
We present a sum rule for the induced local density of photonic states (LDOS). This quantity describ...
For a long time, the point-dipole model was a central and natural approximation in the field of phot...
International audienceWhen the sizes of photonic nanoparticles are much smaller than the excitation ...
13 pages, 6 figures. Includes a supporting information pdf and python examplesInternational audience...
The multipole expansion of a nano-photonic structure's electromagnetic response is a versatile tool ...
In this work we study the interaction of visible light with plasmonic nanodimers that, under particu...
Optical properties of natural or designed materials are determined by the electromagnetic multipole ...
Polarization and magnetization fields are central concepts in the theory of light-matter interaction...
An analytical description for plane-wave propagation in metamaterials is presented. It follows the u...
We demonstrate that the multipoles associated with the density matrix are truly observable quantitie...
Multipole expansion is one of the main analytical tools of the modern theoretical physics. In electr...
Nanostructures with sizes smaller than or comparable to visible light strongly modify the decay rate...
Metamaterials are composites consisting of artificial meta-atoms/metamolecules with typical sizes le...
Metamaterials are composites consisting of artificial meta-atoms/metamolecules with typical sizes le...
Multipolar electromagnetic phenomena in sub-wavelength resonators are at the heart of metamaterial s...
We present a sum rule for the induced local density of photonic states (LDOS). This quantity describ...
For a long time, the point-dipole model was a central and natural approximation in the field of phot...
International audienceWhen the sizes of photonic nanoparticles are much smaller than the excitation ...
13 pages, 6 figures. Includes a supporting information pdf and python examplesInternational audience...
The multipole expansion of a nano-photonic structure's electromagnetic response is a versatile tool ...
In this work we study the interaction of visible light with plasmonic nanodimers that, under particu...
Optical properties of natural or designed materials are determined by the electromagnetic multipole ...
Polarization and magnetization fields are central concepts in the theory of light-matter interaction...
An analytical description for plane-wave propagation in metamaterials is presented. It follows the u...
We demonstrate that the multipoles associated with the density matrix are truly observable quantitie...
Multipole expansion is one of the main analytical tools of the modern theoretical physics. In electr...
Nanostructures with sizes smaller than or comparable to visible light strongly modify the decay rate...
Metamaterials are composites consisting of artificial meta-atoms/metamolecules with typical sizes le...
Metamaterials are composites consisting of artificial meta-atoms/metamolecules with typical sizes le...
Multipolar electromagnetic phenomena in sub-wavelength resonators are at the heart of metamaterial s...
We present a sum rule for the induced local density of photonic states (LDOS). This quantity describ...
For a long time, the point-dipole model was a central and natural approximation in the field of phot...
International audienceWhen the sizes of photonic nanoparticles are much smaller than the excitation ...