Radiative decay engineering by triaxial nanoellipsoids

Abstract: Radiative decay rates of an atom placed near triaxial nanoellipsoid are investigated in long wavelength approximation. Analytical results are obtained in general case. It is shown that triaxial ellipsoid can be used for efficient control of decay rate of an atom, molecule or quantum dot. For example decay rate near silver ellipsoid can be enhanced by 5 orders of magnitude. It is also shown, that triaxial nanoellipsoid can be used for simultaneous efficient control of absorption and emission rates of fluorophor… Show more

“…The local enhancement of the fields can also be used to increase the fluorescence intensity and to determine the structure of a single DNA strand without using the fluorescent labels [8,9]. By using the nanoparticles of complex configuration one can provide enhancement of both the absorption and the emission of light by natural and artificial fluorophores [10]. Of particular interest and promise are the studies of optical properties of the clusters of two and more metallic nanoparticles, because by changing the cluster's geometry one can effectively control the spectra of the plasmon oscillations.…”

Strongly localized plasmon oscillations in a cluster of two metallic nanospheres and their influence on spontaneous emission of an atom

“…The local enhancement of the fields can also be used to increase the fluorescence intensity and to determine the structure of a single DNA strand without using the fluorescent labels [8,9]. By using the nanoparticles of complex configuration one can provide enhancement of both the absorption and the emission of light by natural and artificial fluorophores [10]. Of particular interest and promise are the studies of optical properties of the clusters of two and more metallic nanoparticles, because by changing the cluster's geometry one can effectively control the spectra of the plasmon oscillations.…”

Strongly localized plasmon oscillations in a cluster of two metallic nanospheres and their influence on spontaneous emission of an atom

“…In order to find the dipole moment one may use the found analytical solution [11] for threeaxis ellipsoid and turn one of the semi-axes to the infinity (without using the elliptic cylinder coordinates). As a result, the expression for the induced dipole moment on the elliptic cylinder made of material with the dielectric constant ε with semi-axes a and b on the x-and y-axes, respectively (Fig.2), will take the form:…”

“…This direction often referred to as nanophotonics [4]. Influence of spherical [5]- [7], spheroidal [8]- [10] and even ellipsoidal [11] nanoparticle on radiation of atoms and molecules is investigated in details.…”

Spontaneous emission of an atom placed near a nanobelt of elliptical cross section

“…The local enhancement of the fields can also be used to increase the fluorescence intensity and to determine the structure of a single DNA strand without using the fluorescent labels [8]- [9]. By using the nanoparticles of more complex shape one can provide enhancement of both the absorption and the emission of light by natural and artificial fluorophores [10]. On the other hand, the plasmon nanoparticles are proposed to be used in nanolasers [11] and to stimulate plasmonic oscillations in nanoparticles by means of the optical emission (SPASER) [12].…”

Plasmonic atoms and plasmonic molecules