Investigation of nodal domains in a chaotic three-dimensional microwave rough billiard with the translational symmetry

Abstract

We show that using the concept of the two-dimensional level number N| one can experimentally study of the nodal domains in a three-dimensional (3D) microwave chaotic rough billiard with the translational symmetry. Nodal domains are regions where a wave function has a definite sign. We found the dependence of the number of nodal domains alephN| lying on the cross-sectional planes of the cavity on the two-dimensional level number N|. We demonstrate that in the limit N| -> infinity the least squares fit of the experimental data reveals the asymptotic ratio alephN|/N| = 0.059 +- 0.029 that is close to the theoretical prediction alephN|/N| = 0.062. This result is in good agreement with the predictions of percolation theory.