Performances of reverberation chambers exhibit a non-trivial dependence on distributed losses. It is shown through numerical simulations that the average maximum-to-mean chamber field/power do not decrease with increasing losses as expected. Rather, it reaches an optimal value at moderate losses. Interestingly, the chamber field uniformity is also optimized at the same amount of losses. This behavior is accompanied by a progressive reduction of the quality factor and of the number of independent stirrer positions, indicating that losses augment the unstirred components as partial field coherence develops. A statistical model, the random coupling model, based on wave-chaos is used to shed light on the role of modal fluctuations and losses in...
International audienceWeibull distribution is adopted to model the electric field component of a Rev...
International audienceWave chaos theory is used to study a modeled reverberation chamber (RC). The f...
We address the uncertainty of reverberation chamber (RC) measurements in presence of both mechanical...
Performances of reverberation chambers exhibit a non-trivial dependence on distributed losses. It is...
Finite-difference time-domain simulations of reverberation chambers exhibit a strong frequency depen...
A multivariate approach to the calculation of field-field correlation matrices is used to estimate t...
International audienceThe physical parameter well adapted to assess the degree of overmodedness of a...
International audienceIt is commonly acknowledged that in perfectly stirred reverberation chambers, ...
In this paper, we study possible ways to improve the Reverberation Chamber (RC) behavior. There coul...
International audienceThis article presents a study of the intensity statistics of the electromagnet...
International audienceIn this article, we present a numerical investigation of three-dimensional ele...
In this paper, we present an improved model of measurement standard uncertainty of the insertion los...
International audienceWeibull distribution is adopted to model the electric field component of a Rev...
International audienceWave chaos theory is used to study a modeled reverberation chamber (RC). The f...
We address the uncertainty of reverberation chamber (RC) measurements in presence of both mechanical...
Performances of reverberation chambers exhibit a non-trivial dependence on distributed losses. It is...
Finite-difference time-domain simulations of reverberation chambers exhibit a strong frequency depen...
A multivariate approach to the calculation of field-field correlation matrices is used to estimate t...
International audienceThe physical parameter well adapted to assess the degree of overmodedness of a...
International audienceIt is commonly acknowledged that in perfectly stirred reverberation chambers, ...
In this paper, we study possible ways to improve the Reverberation Chamber (RC) behavior. There coul...
International audienceThis article presents a study of the intensity statistics of the electromagnet...
International audienceIn this article, we present a numerical investigation of three-dimensional ele...
In this paper, we present an improved model of measurement standard uncertainty of the insertion los...
International audienceWeibull distribution is adopted to model the electric field component of a Rev...
International audienceWave chaos theory is used to study a modeled reverberation chamber (RC). The f...
We address the uncertainty of reverberation chamber (RC) measurements in presence of both mechanical...