In a series of pump and probe experiments, we study the lifetime statistics of a quantum chaotic resonator when the number of open channels is greater than one. Our design embeds a stadium billiard into a two dimensional photonic crystal realized on a silicon-on-insulator substrate. We calculate resonances through a multiscale procedure that combines energy landscape analysis and wavelet transforms. Experimental data is found to follow the universal predictions arising from random matrix theory with an excellent level of agreement.</p
International audienceIn our former work (Sci. Rep. 4: 6039, 2014), we theoretically and numerically...
Microwave experiments using 2-D billiard geometries are a precise test of basic is-sues in Quantum C...
Chaos is a phenomenon that occurs in many aspects of contemporary science. In classical dynamics, ch...
In a series of pump and probe experiments, we study the lifetime statistics of a quantum chaotic res...
Complex scattering exists in many diverse physical and real-life scenarios. Examples include reactio...
The statistics of the resonance widths and the behavior of the survival probability is studied in a ...
We discuss the evolution of the electronic and scattering properties of a square billiard connected ...
We experimentally investigate the Dicke phase transition in chaotic optical resonators realized with...
A deformed dielectric microcavity is used as an experimental platform for the analysis of the statis...
Phenomena in quantum chaotic systems such as spectral fluctuations are known to be described remark...
We discuss the statistical properties of lifetimes of electromagnetic quasibound states in dielectri...
We show here theoretically and experimentally how chaotic Photonic Crystal resonators can be used fo...
Quantum chaos research deals with connections between a wave system and its classical counterpart wi...
The signatures of classical chaos and the role of periodic orbits in the wave-mechanical eigenvalue ...
Distributions of eigenmodes are widely concerned in both bounded and open systems. In the realm of c...
International audienceIn our former work (Sci. Rep. 4: 6039, 2014), we theoretically and numerically...
Microwave experiments using 2-D billiard geometries are a precise test of basic is-sues in Quantum C...
Chaos is a phenomenon that occurs in many aspects of contemporary science. In classical dynamics, ch...
In a series of pump and probe experiments, we study the lifetime statistics of a quantum chaotic res...
Complex scattering exists in many diverse physical and real-life scenarios. Examples include reactio...
The statistics of the resonance widths and the behavior of the survival probability is studied in a ...
We discuss the evolution of the electronic and scattering properties of a square billiard connected ...
We experimentally investigate the Dicke phase transition in chaotic optical resonators realized with...
A deformed dielectric microcavity is used as an experimental platform for the analysis of the statis...
Phenomena in quantum chaotic systems such as spectral fluctuations are known to be described remark...
We discuss the statistical properties of lifetimes of electromagnetic quasibound states in dielectri...
We show here theoretically and experimentally how chaotic Photonic Crystal resonators can be used fo...
Quantum chaos research deals with connections between a wave system and its classical counterpart wi...
The signatures of classical chaos and the role of periodic orbits in the wave-mechanical eigenvalue ...
Distributions of eigenmodes are widely concerned in both bounded and open systems. In the realm of c...
International audienceIn our former work (Sci. Rep. 4: 6039, 2014), we theoretically and numerically...
Microwave experiments using 2-D billiard geometries are a precise test of basic is-sues in Quantum C...
Chaos is a phenomenon that occurs in many aspects of contemporary science. In classical dynamics, ch...