Review on graphene-based absorbers for infrared to ultraviolet frequencies
The graphene-based absorbers are widely applicable and highly efficient. Graphene has
very high electrochemical properties due to which tuning characteristics can be achieved …
very high electrochemical properties due to which tuning characteristics can be achieved …
Plasmonically induced transparency in phase-coupled graphene nanoribbons
Due to its transparent and highly dispersive nature, plasmonically induced transparency
(PIT) has become an attractive field in the on-chip control of light. Conventional methods to …
(PIT) has become an attractive field in the on-chip control of light. Conventional methods to …
Hybrid graphene-plasmonic gratings to achieve enhanced nonlinear effects at terahertz frequencies
High input intensities are usually required to efficiently produce nonlinear optical effects in
ultrathin structures due to their extremely weak nature. This problem is particularly critical at …
ultrathin structures due to their extremely weak nature. This problem is particularly critical at …
Spontaneous emission of a quantum emitter near a graphene nanodisk under strong light-matter coupling
We investigate the dynamical evolution of the spontaneous emission of a two-level quantum
emitter near a graphene nanodisk. We employ the macroscopic quantum electrodynamics …
emitter near a graphene nanodisk. We employ the macroscopic quantum electrodynamics …
Optical response of periodic arrays of graphene nanodisks
Doped graphene nanostructures are a promising platform for photonics due to their
exceptionally strong and tunable plasmonic resonances. When placed in a periodic array …
exceptionally strong and tunable plasmonic resonances. When placed in a periodic array …
Influence of Quadrupolar Molecular Transitions within Plasmonic Cavities
Optical nanocavities have revolutionized the manipulation of radiative properties of
molecular and semiconductor emitters. Here, we investigate the amplified …
molecular and semiconductor emitters. Here, we investigate the amplified …
Comparative Analysis of the Near‐and Far‐Field Optical Response of Thin Plasmonic Nanostructures
Nanostructures made of metallic materials support collective oscillations of their conduction
electrons, commonly known as surface plasmons. These modes, whose characteristics are …
electrons, commonly known as surface plasmons. These modes, whose characteristics are …
Dipolar and quadrupolar excitons coupled to a nanoparticle-on-mirror cavity
A Cuartero-González, AI Fernández-Domínguez - Physical Review B, 2020 - APS
We investigate plasmon-emitter interactions in a nanoparticle-on-mirror cavity. We consider
two different sorts of emitters: Those that sustain dipolar transitions and those hosting only …
two different sorts of emitters: Those that sustain dipolar transitions and those hosting only …
Interference between multipolar two-photon transitions in quantum emitters near plasmonic nanostructures
In the vicinity of plasmonic nanostructures that support highly confined light fields,
spontaneous emission processes, such as two-photon spontaneous emission (TPSE) …
spontaneous emission processes, such as two-photon spontaneous emission (TPSE) …
General framework for two-photon spontaneous emission near plasmonic nanostructures
We present a general framework that computes the two-photon spontaneous emission rate
of a quantum emitter close to an arbitrary photonic structure beyond the dipolar …
of a quantum emitter close to an arbitrary photonic structure beyond the dipolar …