We present the results of experimental studies of microwave irregular networks and a three-dimensional microwave rough cavity in the presence of absorption. Microwave networks are also analyzed numerically. Microwave networks simulate one-dimensional quantum graphs. The networks consist of coaxial cables connected by joints and attenuators to control absorption. Three-dimensional microwave rough cavities have no formal analog in quantum 3D systems. However, some statistical properties of their spectra such as the level spacing distribution confirms that they belong to the wave-chaotic systems. Absorption of the cavity was changed by using a foam microwave absorber
In sight of fundamental thermal limits on further substantial performance improvements of modern dig...
During the last few years we have studied the chaotic behavior of special Euclidian geometries, so-c...
published online 2012-07-30International audienceThe description of open quantum system successfully...
In this work we investigate the wave propagation in three different complex systems. In the first tw...
Microwave experiments have become an important tool to study wave transport in chaotic and disordere...
Complex scattering exists in many diverse physical and real-life scenarios. Examples include reactio...
Microwave experiments using 2-D billiard geometries are a precise test of basic is-sues in Quantum C...
In this work we shall test predictions of random wave models with microwave experiments. In wave or ...
International audienceAn overview over the microwave studies of chaotic systems is presented, perfor...
The signatures of classical chaos and the role of periodic orbits in the wave-mechanical eigenvalue ...
The mathematical equivalence of the time-independent Schrödinger equation and the Helmholtz equation...
We present the results of numerical and experimental studies of the elastic enhancement factorW for ...
We study the statistical properties of the impedance (Z) and scattering (S) matrices of open electro...
International audienceAny measurement opens a wave system. This coupling to the continuum drasticall...
In this work several aspects of quantum chaos are studied in the time domain. The wave equation for...
In sight of fundamental thermal limits on further substantial performance improvements of modern dig...
During the last few years we have studied the chaotic behavior of special Euclidian geometries, so-c...
published online 2012-07-30International audienceThe description of open quantum system successfully...
In this work we investigate the wave propagation in three different complex systems. In the first tw...
Microwave experiments have become an important tool to study wave transport in chaotic and disordere...
Complex scattering exists in many diverse physical and real-life scenarios. Examples include reactio...
Microwave experiments using 2-D billiard geometries are a precise test of basic is-sues in Quantum C...
In this work we shall test predictions of random wave models with microwave experiments. In wave or ...
International audienceAn overview over the microwave studies of chaotic systems is presented, perfor...
The signatures of classical chaos and the role of periodic orbits in the wave-mechanical eigenvalue ...
The mathematical equivalence of the time-independent Schrödinger equation and the Helmholtz equation...
We present the results of numerical and experimental studies of the elastic enhancement factorW for ...
We study the statistical properties of the impedance (Z) and scattering (S) matrices of open electro...
International audienceAny measurement opens a wave system. This coupling to the continuum drasticall...
In this work several aspects of quantum chaos are studied in the time domain. The wave equation for...
In sight of fundamental thermal limits on further substantial performance improvements of modern dig...
During the last few years we have studied the chaotic behavior of special Euclidian geometries, so-c...
published online 2012-07-30International audienceThe description of open quantum system successfully...