Add to ORKGThe nonlinear optical response of metal nanostructures is sensitive to sample quality. Small deviations in the structural features of the particles result in large changes in the nonlinear response. This problem is particularly evident in second-harmonic generation, which is sensitive to sample symmetry. Local defects give rise to chiral symmetry breaking and effective quadrupole effects. Recent achievements in sample fabrication make it possible to obtain metal nanostructures with very high quality and tailorable nonlinear optical properties. Our study shows that the nonlinear optical response of high-quality samples is driven by electric-dipole interactions and is no longer uncontrollable as it was in the past for low-quality samples. Imp...
Nonlinear optical properties of metal nanoparticles have been investigated at different excitation w...
A recurring theme in nanophotonics is the ability of metal nanostructures to imbue artificial materi...
Optical nonlinearity is determined by the structure of materials and, therefore, nanostructuring pro...
The second-order nonlinear optical response of metal nanostructures is very sensitive to the symmetr...
The second-order nonlinear optical response of metal nanostructures is very sensitive to the symmetr...
In this work, we study the second-order nonlinear optical properties of regular arrays of L-shaped g...
In this work, we study the second-order nonlinear optical properties of regular arrays of L-shaped g...
The unique and tailorable properties of metal nanostructures show great prospects for future nanopho...
The unique and tailorable properties of metal nanostructures show great prospects for future nanopho...
An array of low-symmetry, L-shaped gold nanoparticles is shown to exhibit high sensitivity to the st...
We use two-beam second-harmonic generation to separate the surface (electric dipole origin) and bulk...
We use two-beam second-harmonic generation to separate the surface (electric dipole origin) and bulk...
We use two-beam second-harmonic generation to separate the surface (electric dipole origin) and bulk...
The synthesis, characterization and application of noble metal nanoparticles is the subject of inten...
We present a multipolar tensor analysis of second-harmonic generation from arrays of noncentrosymmet...
Nonlinear optical properties of metal nanoparticles have been investigated at different excitation w...
A recurring theme in nanophotonics is the ability of metal nanostructures to imbue artificial materi...
Optical nonlinearity is determined by the structure of materials and, therefore, nanostructuring pro...
The second-order nonlinear optical response of metal nanostructures is very sensitive to the symmetr...
The second-order nonlinear optical response of metal nanostructures is very sensitive to the symmetr...
In this work, we study the second-order nonlinear optical properties of regular arrays of L-shaped g...
In this work, we study the second-order nonlinear optical properties of regular arrays of L-shaped g...
The unique and tailorable properties of metal nanostructures show great prospects for future nanopho...
The unique and tailorable properties of metal nanostructures show great prospects for future nanopho...
An array of low-symmetry, L-shaped gold nanoparticles is shown to exhibit high sensitivity to the st...
We use two-beam second-harmonic generation to separate the surface (electric dipole origin) and bulk...
We use two-beam second-harmonic generation to separate the surface (electric dipole origin) and bulk...
We use two-beam second-harmonic generation to separate the surface (electric dipole origin) and bulk...
The synthesis, characterization and application of noble metal nanoparticles is the subject of inten...
We present a multipolar tensor analysis of second-harmonic generation from arrays of noncentrosymmet...
Nonlinear optical properties of metal nanoparticles have been investigated at different excitation w...
A recurring theme in nanophotonics is the ability of metal nanostructures to imbue artificial materi...
Optical nonlinearity is determined by the structure of materials and, therefore, nanostructuring pro...