Zhao, PaiPaiZhaoSharma, Chithra H.Chithra H.SharmaTiemann, LarsLarsTiemannBlick, Robert H.Robert H.Blick2024-10-112024-10-112024-05-07Journal of Physics D: Applied Physics 57 (30): 303001 (2024-05-07)https://hdl.handle.net/11420/49367Surface acoustic waves, the microcosmic cousins of seismic waves, can be generated and precisely controlled on a microscopic scale by applying a periodic electrical signal to a piezoelectric substrate. Harnessing and exploring their interactions with two-dimensional van der Waals (vdW) systems opens new frontiers in materials science and engineering. As part of a special issue on these guided elastic waves for hybrid nano- and quantum technologies, our review highlights work focusing on acoustically-induced transport phenomena at low temperatures that arise from the interaction between the surface acoustic waves in a piezoelectric substrate and a vdW material on its surface. A main focus is on technological methods to control the carrier concentration in transport and strain-related effects that can act on the carrier motion as an effective magnetic field.en0022-3727202430Institute of Physicshttps://creativecommons.org/licenses/by/4.0/acoustoelectric effectsartificial gauge fieldsgrapheneMoS 2strainsurface acoustic wavesvan-der-WaalsTechnology::620: Engineering::620.5: NanotechnologyReview Article10.15480/882.1336310.1088/1361-6463/ad3f2410.15480/882.13363Review Article