Add to ORKGThe emergence of multilayer metamaterials in the research field of enhancing spontaneous emission rates has recently received extensive attention. Previous research efforts mostly focus on periodic metal-dielectric multilayers in hyperbolic dispersion region; however, the influence of lattice order in subwavelength multilayers on spontaneous emission is rarely studied. Here, we observe the stronger Purcell enhancement of quantum dots coupled to the aperiodic metal-dielectric multilayer with Thue-Morse lattice order from elliptical to hyperbolic dispersion regions, compared to the periodic multilayer with the same metal filling ratio. This work demonstrates the potential of utilizing quasiperiodic metamaterial nanostructures to engineer the ...
Zero point fluctuations of the electromagnetic radiation field have profound effects on the electron...
Funding: State of Bavaria; H2020 European Research Council (ERC) (Project Unlimit-2D).Atomic monolay...
We numerically investigate and experimentally demonstrate a new route to controllably manipulate the...
Enhancement of light-matter interaction of a quantum emitter with subwavelength quasiperiodic metama...
Metamaterials, artificial electromagnetic media realized by subwavelength nano-structuring, have bec...
We study the spontaneous emission of a dipole emitter imbedded into a layered metal-dielectric metam...
Hyperbolic metamaterials (HMMs) are so named for possessing a hyperboloid-shaped dispersion which gi...
Light-matter interactions can be strongly modified by the surrounding environment. Here, we report o...
We experimentally demonstrate a broadband enhancement of emission from nitrogen-vacancy centers in n...
Fundamental study on plasmonics excites surface plasmons opening possibility for stronger light-matt...
Metamaterial perfect absorbers (PAs) made of a hexagonal array of holes on Ag-SiO 2 -Ag thin films h...
Cataloged from PDF version of article.We theoretically demonstrate that nanocomposites made of collo...
Aperiodic photonic crystals can open up novel routes for more efficient photon management due to inc...
The ability to control the rate of spontaneous emission via the design of nanostructured materials w...
The spontaneous emission of an excited atom surrounded by different materials is studied in the fram...
Zero point fluctuations of the electromagnetic radiation field have profound effects on the electron...
Funding: State of Bavaria; H2020 European Research Council (ERC) (Project Unlimit-2D).Atomic monolay...
We numerically investigate and experimentally demonstrate a new route to controllably manipulate the...
Enhancement of light-matter interaction of a quantum emitter with subwavelength quasiperiodic metama...
Metamaterials, artificial electromagnetic media realized by subwavelength nano-structuring, have bec...
We study the spontaneous emission of a dipole emitter imbedded into a layered metal-dielectric metam...
Hyperbolic metamaterials (HMMs) are so named for possessing a hyperboloid-shaped dispersion which gi...
Light-matter interactions can be strongly modified by the surrounding environment. Here, we report o...
We experimentally demonstrate a broadband enhancement of emission from nitrogen-vacancy centers in n...
Fundamental study on plasmonics excites surface plasmons opening possibility for stronger light-matt...
Metamaterial perfect absorbers (PAs) made of a hexagonal array of holes on Ag-SiO 2 -Ag thin films h...
Cataloged from PDF version of article.We theoretically demonstrate that nanocomposites made of collo...
Aperiodic photonic crystals can open up novel routes for more efficient photon management due to inc...
The ability to control the rate of spontaneous emission via the design of nanostructured materials w...
The spontaneous emission of an excited atom surrounded by different materials is studied in the fram...
Zero point fluctuations of the electromagnetic radiation field have profound effects on the electron...
Funding: State of Bavaria; H2020 European Research Council (ERC) (Project Unlimit-2D).Atomic monolay...
We numerically investigate and experimentally demonstrate a new route to controllably manipulate the...