308 research outputs found
Size Dependence and Convergence of the Retrieval Parameters of Metamaterials
We study the dependence of the retrieval parameters, such as the electric
permittivity, the magnetic permeability and the index of refraction, , on
the size of the unit cell of a periodic metamaterial. The convergence of the
retrieved parameters on the number of the unit cells is also examined. We have
concentrated our studies on the so-called fishnet structure, which is the most
promising design to obtain negative at optical wavelengths. We find that as
the size of the unit cell decreases, the magnitude of the retrieved effective
parameters increases. The convergence of the effective parameters of the
fishnet as the number of the unit cells increases is demonstrated but found to
be slower than for regular split ring resonators and wires structures. This is
due to a much stronger coupling between the different unit cells in the fishnet
structure.Comment: Journal-ref and DOI adde
Spontaneous emission in the near-field of 2D photonic crystals
We show theoretically that photonic crystal membranes cause large variations
in the spontaneous emission rate of dipole emitters, not only inside but also
in the near-field above the membranes. Our three-dimensional finite difference
time-domain calculations reveal an inhibition of more than five times and an
enhancement of more than ten times for the spontaneous emission rate of
emitters with select dipole orientations and frequencies. Furthermore we
demonstrate theoretically, the potential of a nanoscopic emitter attached to
the end of a glass fiber tip as a local probe for mapping the large spatial
variations of the photonic crystal local radiative density of states. This
arrangement is promising for on-command modification of the coupling between an
emitter and the photonic crystal in quantum optical experiments.Comment: 3 pages, 3 figures. Figure 2 colo
Electric coupling to the magnetic resonance of split ring resonators
We study both theoretically and experimentally the transmission properties of
a lattice of split ring resonators (SRRs) for different electromagnetic (EM)
field polarizations and propagation directions. We find unexpectedly that the
incident electric field E couples to the magnetic resonance of the SRR when the
EM waves propagate perpendicular to the SRR plane and the incident E is
parallel to the gap-bearing sides of the SRR. This is manifested by a dip in
the transmission spectrum. A simple analytic model is introduced to explain
this interesting behavior.Comment: 4 pages, 4 figure
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