Add to ORKGNanophotonic structures, which offer a sub-wavelength control over light and nearby emitters, promise to advance, for example, our ability to harvest light, process information and detect (bio-) chemical compounds. In general, the optical field distributions near nanophotonic structures are much more complex than those in the far field. That is, nanophotonic structures achieve much of their unique functionalities because both the electromagnetic fields and the emission modification of nearby emitters spatially vary on the nanoscale with respect to their orientation, amplitude and phase. Furthermore, unlike for conventional microscopic structures, the interaction between the optical magnetic fields and nanophotonics structures frequently pla...
International audienceLight–matter interactions are often considered to be mediated by the electric ...
Tailoring the electromagnetic field at the nanoscale has led to artificial materials exhibiting fasc...
Tailoring the electromagnetic field at the nanoscale has led to artificial materials exhibiting fasc...
Nanophotonic structures, which offer a sub-wavelength control over light and nearby emitters, promis...
Light is a union of electric and magnetic fields, and nowhere is the complex relationship between th...
Light is a union of electric and magnetic fields, and nowhere is the complex relationship between th...
Light is a union of electric and magnetic fields, and nowhere is the complex relationship between th...
Light is a union of electric and magnetic fields, and nowhere is the complex relationship between th...
In nano-optics, light is controlled at length scales smaller than the wavelength. Consequently, inve...
The study of light fields near nanophotonic structures continually reveals new fundamental features ...
The behaviour of nanoscale optical devices in a variety of burgeoning research areas, such as photon...
The behaviour of nanoscale optical devices in a variety of burgeoning research areas, such as photon...
Photonic nanomaterials, and in particular plasmonic nanoantennas, enable the manipulation of light-m...
Light–matter interactions are often considered to be mediated by the electric component of light onl...
Control of light–matter interactions at the nanoscale has advanced fields such as quantum optics1, p...
International audienceLight–matter interactions are often considered to be mediated by the electric ...
Tailoring the electromagnetic field at the nanoscale has led to artificial materials exhibiting fasc...
Tailoring the electromagnetic field at the nanoscale has led to artificial materials exhibiting fasc...
Nanophotonic structures, which offer a sub-wavelength control over light and nearby emitters, promis...
Light is a union of electric and magnetic fields, and nowhere is the complex relationship between th...
Light is a union of electric and magnetic fields, and nowhere is the complex relationship between th...
Light is a union of electric and magnetic fields, and nowhere is the complex relationship between th...
Light is a union of electric and magnetic fields, and nowhere is the complex relationship between th...
In nano-optics, light is controlled at length scales smaller than the wavelength. Consequently, inve...
The study of light fields near nanophotonic structures continually reveals new fundamental features ...
The behaviour of nanoscale optical devices in a variety of burgeoning research areas, such as photon...
The behaviour of nanoscale optical devices in a variety of burgeoning research areas, such as photon...
Photonic nanomaterials, and in particular plasmonic nanoantennas, enable the manipulation of light-m...
Light–matter interactions are often considered to be mediated by the electric component of light onl...
Control of light–matter interactions at the nanoscale has advanced fields such as quantum optics1, p...
International audienceLight–matter interactions are often considered to be mediated by the electric ...
Tailoring the electromagnetic field at the nanoscale has led to artificial materials exhibiting fasc...
Tailoring the electromagnetic field at the nanoscale has led to artificial materials exhibiting fasc...