Microwave experiments have become an important tool to study wave transport in chaotic and disordered systems. This includes both matter waves in quantum-mechanical systems as well as various types of classical waves. This short report introduces into the technique and gives a number of illustrative examples. It addresses mainly non-expert readers to give them the chance to become acquainted with the method without the need to study additional literature
We performed research in the field of electromagnetic wave chaos and High Power Microwave (HPM) effe...
Wave scattering in a complicated environment is a common challenge in many engineering fields becaus...
We numerically study the excitation mechanism of the hydrogen atom in a microwave field and show tha...
Microwave experiments using 2-D billiard geometries are a precise test of basic is-sues in Quantum C...
Scattering experiments are indispensable for the study of classical and quantum systems. In the Heid...
In this work we shall test predictions of random wave models with microwave experiments. In wave or ...
International audienceAny measurement opens a wave system. This coupling to the continuum drasticall...
We present the results of experimental studies of microwave irregular networks and a three-dimension...
International audienceAn overview over the microwave studies of chaotic systems is presented, perfor...
The mathematical equivalence of the time-independent Schrödinger equation and the Helmholtz equation...
In this work we investigate the wave propagation in three different complex systems. In the first tw...
Complex scattering exists in many diverse physical and real-life scenarios. Examples include reactio...
published online 2012-07-30International audienceThe description of open quantum system successfully...
During the last few years we have studied the chaotic behavior of special Euclidian geometries, so-c...
The signatures of classical chaos and the role of periodic orbits in the wave-mechanical eigenvalue ...
We performed research in the field of electromagnetic wave chaos and High Power Microwave (HPM) effe...
Wave scattering in a complicated environment is a common challenge in many engineering fields becaus...
We numerically study the excitation mechanism of the hydrogen atom in a microwave field and show tha...
Microwave experiments using 2-D billiard geometries are a precise test of basic is-sues in Quantum C...
Scattering experiments are indispensable for the study of classical and quantum systems. In the Heid...
In this work we shall test predictions of random wave models with microwave experiments. In wave or ...
International audienceAny measurement opens a wave system. This coupling to the continuum drasticall...
We present the results of experimental studies of microwave irregular networks and a three-dimension...
International audienceAn overview over the microwave studies of chaotic systems is presented, perfor...
The mathematical equivalence of the time-independent Schrödinger equation and the Helmholtz equation...
In this work we investigate the wave propagation in three different complex systems. In the first tw...
Complex scattering exists in many diverse physical and real-life scenarios. Examples include reactio...
published online 2012-07-30International audienceThe description of open quantum system successfully...
During the last few years we have studied the chaotic behavior of special Euclidian geometries, so-c...
The signatures of classical chaos and the role of periodic orbits in the wave-mechanical eigenvalue ...
We performed research in the field of electromagnetic wave chaos and High Power Microwave (HPM) effe...
Wave scattering in a complicated environment is a common challenge in many engineering fields becaus...
We numerically study the excitation mechanism of the hydrogen atom in a microwave field and show tha...