A paper by Martin Wegener was published in the journal Nature Communications
Acoustic waves in gases, liquids and solids usually exhibit an almost constant speed of sound. An exception are rotons: Rotons are among the quasiparticles, which means they behave similarly to free particles. Unlike ordinary acoustic waves in gases, liquids and solids, their sound velocity changes significantly with wavelength, even backward traveling waves are possible.
Understanding and using quasiparticles like rotons is one of the great challenges of quantum physics. Until now, rotons could only be observed under special quantum physical conditions at very low temperatures – thus precluding technical use.
In the article "Roton-like acoustical dispersion relations in 3D metamaterials", the group of researchers lead by Hector Fellow Martin Wegener explains how rotons may be observed without quantum effects under normal ambient conditions and at almost freely selectable frequencies or wavelengths with the help of metamaterials. In the future, his could make it possible to better manipulate acoustic waves in air or in materials, for example, to reflect them back, redirect them or generate echoes.
Congratulations to Martin Wegener!