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要旨:
In this thesis, coupled systems of whispering gallery resonators, atoms and fibers are investigated.
A setup for a controllable photon turnstile consisting of a multilevel atom and
a cavity by exploiting the properties of the photon statistics is suggested. Furthermore, a
chain of atom-cavity systems connected via a fiber is considered. Due to the energy flux
between the subsystems in both directions so-called supermodes with vastly enhanced
transmission compared to a chain of independent subsystems develop. Interference effects
between pathways on which light can propagate through the system cause these
special modes. Moreover, pathway interference effects in an array of microcavities are
studied. It is observed that the phase angles of the complex coupling constants describing
the interaction of neighboring cavities influence crucially the transmission and reflection
behavior of the array. We show that this can be exploited for precision measurements of
the refractive index of a thin slab or determining the position of a nearby particle on a
sub-wavelength scale. A quantitative analysis of the sensitivity of the setup is performed
via FDTD simulations. Light propagation through a disk resonator with a hole as light
scatterer in the terahertz regime is studied. The results are compared to experimental
data and a very good agreement is observed.