R. Hales scite author profile

R. Hales

2Publications

8Citation Statements Received

298Citation Statements Given

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Trace formula for a dielectric microdisk with a point scatterer

Hales¹,

Sieber²,

Waalkens³

2011

J. Phys. A: Math. Theor.

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Two-dimensional dielectric microcavities are of widespread use in microoptics applications. Recently, a trace formula has been established for dielectric cavities which relates their resonance spectrum to the periodic rays inside the cavity. In the present paper we extend this trace formula to a dielectric disk with a small scatterer. This system has been introduced for microlaser applications, because it has long-lived resonances with strongly directional far field. We show that its resonance spectrum contains signatures not only of periodic rays, but also of diffractive rays that occur in Keller's geometrical theory of diffraction. We compare our results with those for a closed cavity with Dirichlet boundary conditions.

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Classical and quantum transport through entropic barriers modeled by hardwall hyperboloidal constrictions

Hales¹,

Waalkens²

2009

Annals of Physics

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a b s t r a c tWe study the quantum transport through entropic barriers induced by hardwall constrictions of hyperboloidal shape in two and three spatial dimensions. Using the separability of the Schrö-dinger equation and the classical equations of motion for these geometries, we study in detail the quantum transmission probabilities and the associated quantum resonances, and relate them to the classical phase structures which govern the transport through the constrictions. These classical phase structures are compared to the analogous structures which, as has been shown only recently, govern reaction type dynamics in smooth systems. Although the systems studied in this paper are special due their separability they can be taken as a guide to study entropic barriers resulting from constriction geometries that lead to non-separable dynamics.

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R. Hales

Trace formula for a dielectric microdisk with a point scatterer

Classical and quantum transport through entropic barriers modeled by hardwall hyperboloidal constrictions

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