Add to ORKG\u3cp\u3eThe optical behavior of coupled systems, in which the breaking of parity and time-reversal symmetry occurs, is drawing increasing attention to address the physics of the exceptional point singularity, i.e., when the real and imaginary parts of the normal-mode eigenfrequencies coincide. At this stage, fascinating phenomena are predicted, including electromagnetic-induced transparency and phase transitions. To experimentally observe the exceptional points, the near-field coupling to waveguide proposed so far was proved to work only in peculiar cases. Here, we extend the interference detection scheme, which lies at the heart of the Fano lineshape, by introducing generalized Fano lineshapes as a signature of the exceptional point occur...
Fano resonance refers to an interference between localized and continuum states that was firstly rep...
Photonic and plasmonic devices rely on nanoscale control of the local density of optical states (LDO...
Photonic and plasmonic devices rely on nanoscale control of the local density of optical states (LDO...
The optical behavior of coupled systems, in which the breaking of parity and time-reversal symmetry ...
The optical behavior of coupled systems, in which the breaking of parity and time-reversal symmetry ...
The optical behavior of coupled systems, in which the breaking of parity and time-reversal symmetry ...
Rapid progress in photonics and nanotechnology brings many examples of resonant optical phenomena as...
This book discusses the development of Fano-based techniques and reveals the characteristic properti...
Since its discovery, the asymmetric Fano resonance has been a characteristic feature of interacting ...
textManipulating electromagnetic fields with plasmonic nanostructures has attracted researchers from...
We investigate experimentally and theoretically the role of periodicity on the optical response of d...
Fano resonances in plasmonics have received widespread attention for their distinctly narrow asymmet...
Firstly developed to explain the behaviour of electrons scattered by excited atoms [1], Fano’s model...
Fano resonance refers to an interference between localized and continuum states that was firstly rep...
Fano resonance refers to an interference between localized and continuum states that was firstly rep...
Fano resonance refers to an interference between localized and continuum states that was firstly rep...
Photonic and plasmonic devices rely on nanoscale control of the local density of optical states (LDO...
Photonic and plasmonic devices rely on nanoscale control of the local density of optical states (LDO...
The optical behavior of coupled systems, in which the breaking of parity and time-reversal symmetry ...
The optical behavior of coupled systems, in which the breaking of parity and time-reversal symmetry ...
The optical behavior of coupled systems, in which the breaking of parity and time-reversal symmetry ...
Rapid progress in photonics and nanotechnology brings many examples of resonant optical phenomena as...
This book discusses the development of Fano-based techniques and reveals the characteristic properti...
Since its discovery, the asymmetric Fano resonance has been a characteristic feature of interacting ...
textManipulating electromagnetic fields with plasmonic nanostructures has attracted researchers from...
We investigate experimentally and theoretically the role of periodicity on the optical response of d...
Fano resonances in plasmonics have received widespread attention for their distinctly narrow asymmet...
Firstly developed to explain the behaviour of electrons scattered by excited atoms [1], Fano’s model...
Fano resonance refers to an interference between localized and continuum states that was firstly rep...
Fano resonance refers to an interference between localized and continuum states that was firstly rep...
Fano resonance refers to an interference between localized and continuum states that was firstly rep...
Photonic and plasmonic devices rely on nanoscale control of the local density of optical states (LDO...
Photonic and plasmonic devices rely on nanoscale control of the local density of optical states (LDO...