We study the dielectric annular billiard as a quantum chaotic model of a micro-optical resonator. It differs from conventional billiards with hard-wall boundary conditions in that it is partially open and composed of two dielectric media with different refractive indices. The interplay of reflection and transmission at the different interfaces gives rise to rich dynamics of classical light rays and to a variety of wave phenomena. We study the ray propagation in terms of Poincare surfaces of section and complement it with full numerical solutions of the corresponding wave equations. We introduce and develop an S-matrix approach to open optical cavities which proves very suitable for the identification of resonances of intermediate width that...
One of the central paradigms for classical and quantum chaos in conservative systems is the two-dime...
In a series of pump and probe experiments, we study the lifetime statistics of a quantum chaotic res...
We develop a random-matrix model of two-dimensional dielectric resonators which combines internal wa...
We study the dielectric annular billiard as a quantum chaotic model of a micro-optical resonator. It...
Quantum chaos research deals with connections between a wave system and its classical counterpart wi...
Dielectric optical micro-resonators and micro-lasers represent a realization of a wave-chaotic syste...
During the last few years we have studied the chaotic behavior of special Euclidian geometries, so-c...
We present detailed investigations of the experimental signatures of chaos-assisted tunneling in the...
Optical microcavity billiards are a paradigm of a mesoscopic model system for quantum chaos. We demo...
The generic “billiard problem ” is a paradigm of nonlinear mathematical physics, which connects to d...
With the advancement in understanding of the physics inside chaotic systems, chaos has been harnesse...
We study quantum-mechanical tunneling between symmetry-related pairs of regular phase space regions ...
We study wave transport through a chaotic quantum billiard attached to two waveguides via barriers o...
We introduce and investigate billiard systems with an adjusted ray dynamics that accounts for modifi...
Utilizing quantum chaos, a broadband and efficient coupling scheme has been demonstrated between a f...
One of the central paradigms for classical and quantum chaos in conservative systems is the two-dime...
In a series of pump and probe experiments, we study the lifetime statistics of a quantum chaotic res...
We develop a random-matrix model of two-dimensional dielectric resonators which combines internal wa...
We study the dielectric annular billiard as a quantum chaotic model of a micro-optical resonator. It...
Quantum chaos research deals with connections between a wave system and its classical counterpart wi...
Dielectric optical micro-resonators and micro-lasers represent a realization of a wave-chaotic syste...
During the last few years we have studied the chaotic behavior of special Euclidian geometries, so-c...
We present detailed investigations of the experimental signatures of chaos-assisted tunneling in the...
Optical microcavity billiards are a paradigm of a mesoscopic model system for quantum chaos. We demo...
The generic “billiard problem ” is a paradigm of nonlinear mathematical physics, which connects to d...
With the advancement in understanding of the physics inside chaotic systems, chaos has been harnesse...
We study quantum-mechanical tunneling between symmetry-related pairs of regular phase space regions ...
We study wave transport through a chaotic quantum billiard attached to two waveguides via barriers o...
We introduce and investigate billiard systems with an adjusted ray dynamics that accounts for modifi...
Utilizing quantum chaos, a broadband and efficient coupling scheme has been demonstrated between a f...
One of the central paradigms for classical and quantum chaos in conservative systems is the two-dime...
In a series of pump and probe experiments, we study the lifetime statistics of a quantum chaotic res...
We develop a random-matrix model of two-dimensional dielectric resonators which combines internal wa...