Collective plasmon-molecule excitations in nanojunctions: Quantum consideration
We present a pseudoparticle nonequilibrium Green function formalism as a tool to study the
coupling between plasmons and excitons in nonequilibrium molecular junctions. The …
coupling between plasmons and excitons in nonequilibrium molecular junctions. The …
Dynamical quantum-electrodynamics embedding: Combining time-dependent density functional theory and the near-field method
We develop an approach for dynamical (ω> 0) embedding of mixed quantum mechanical
(QM)/classical (or more precisely QM/electrodynamics) systems with a quantum sub-region …
(QM)/classical (or more precisely QM/electrodynamics) systems with a quantum sub-region …
Dynamical coupling of plasmons and molecular excitations by hybrid quantum/classical calculations: time-domain approach
The presence of plasmonic material influences the optical properties of nearby molecules in
untrivial ways due to the dynamical plasmon-molecule coupling. We combine quantum and …
untrivial ways due to the dynamical plasmon-molecule coupling. We combine quantum and …
Far-field super-resolution detection of plasmonic near-fields
We demonstrate a far-field single molecule super-resolution method that maps plasmonic
near-fields. The method is largely invariant to fluorescence quenching (arising from probe …
near-fields. The method is largely invariant to fluorescence quenching (arising from probe …
Strongly correlated plexcitonics: evolution of the Fano resonance in the presence of Kondo correlations
A Goker - Physical Chemistry Chemical Physics, 2015 - pubs.rsc.org
We study the optical absorption of a system consisting of a diatomic molecule that exhibits
strong electron correlations coupled to metal nanoparticles possessing plasmon resonances …
strong electron correlations coupled to metal nanoparticles possessing plasmon resonances …
Electromagnetic Response Tensors for Normal Conducting Materials
M Renuka, A Vijay - The Journal of Physical Chemistry C, 2014 - ACS Publications
Maxwell's equations along with the space-time symmetry in normal conducting materials
reveal that the electric permittivity and magnetic permeability tensors of rank 2 are fully …
reveal that the electric permittivity and magnetic permeability tensors of rank 2 are fully …
Nanodentures and mechanical electrodynamics: Three-dimensional relative orientation of plasmonic nanoarches from absorption spectra
RC Boutelle, Y Gao, C Arntsen… - The Journal of Physical …, 2013 - ACS Publications
We propose a general theme, labeled mechanical electrodynamics, where the relative three-
dimensional (3-D) orientation of particles with nontrivial geometries is tracked based on the …
dimensional (3-D) orientation of particles with nontrivial geometries is tracked based on the …
Non-Markovian theory of collective plasmon-molecule excitations in nanojunctions combined with classical electrodynamic simulations
We present a pseudoparticle nonequilibrium Green function formalism as a tool to study the
coupling between plasmons and excitons in nonequilibrium molecular junctions. The …
coupling between plasmons and excitons in nonequilibrium molecular junctions. The …
Optics of Conducting Materials: An Electromagnetic Potential Perspective
M Renuka, A Vijay - The Journal of Physical Chemistry C, 2014 - ACS Publications
Macroscopic electrodynamics with scalar and vector potentials offers a useful paradigm to
study the optical properties of conducting materials, forming a non-Cartesian geometrical …
study the optical properties of conducting materials, forming a non-Cartesian geometrical …