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Breaking Symmetry: A Study Of Novel Phenomena In Asymmetric Nanoplasmonic Systems, Matthew Scott Davis
Breaking Symmetry: A Study Of Novel Phenomena In Asymmetric Nanoplasmonic Systems, Matthew Scott Davis
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Offering tailorable optical properties not achievable with symmetric or periodic optical materials, chiral, weakly disordered, deterministic aperiodic, quasiperiodic and random structures make up a new wave of asymmetric optical systems demonstrating unprecedented control of light compared to their periodic counterparts in areas such as random lasing, imaging, and bio-sensing. The governing physics of asymmetric systems is, however, not as analytically intuitive and computationally straightforward as periodic or highly symmetric systems, and thus the availability of simple analytic and computational design tools has made periodic systems an attractive option for many optical applications. For example, plasmonic systems consisting of periodic arrays …