Ultrasonic investigation of phonon localization in a disordered three-dimensional "mesoglass"

Abstract: One of the long standing questions in phonon physics has been whether or not the Anderson localization of acoustic phonons can be demonstrated unambiguously in disordered materials. In this paper, this question is addressed by reporting signatures of the localization of ultrasonic waves in a "mesoglass" made from a disordered three-dimensional network of aluminum beads. In the upper part of the intermediate frequency regime, which extends over the range of frequencies where the acoustic phonon wavelength is co… Show more

“…Similarly, light localization continues to be at the forefront of many research activities [5]. For classical waves, localization phenomena have an equally impressive history [6] and recent ultra-sound propagation experiments [7] can now probe the spatial and multifractal structure of states close to the Anderson transition. Phonon localization, i.e.…”

Anderson universality in a model of disordered phonons

“…Similarly, light localization continues to be at the forefront of many research activities [5]. For classical waves, localization phenomena have an equally impressive history [6] and recent ultra-sound propagation experiments [7] can now probe the spatial and multifractal structure of states close to the Anderson transition. Phonon localization, i.e.…”

Anderson universality in a model of disordered phonons