Title :
Surface acoustic waves in liquid helium for enhanced single-electron transport applications
Author :
Pedros, Jorge ; Garcia-Gancedo, Luis ; Ford, Christopher J. B. ; Benesh, Matthew J. ; Griffiths, Jonathan P. ; Jones, Geb A. C. ; Flewitt, Andrew J.
Author_Institution :
Cavendish Lab., Univ. of Cambridge, Cambridge, UK
Abstract :
High frequency Rayleigh and Sezawa modes propagating in the ZnO/GaAs system capable of operating immersed in liquid helium have been engineered. In the case of the Rayleigh mode, the strong attenuation produced by the liquid is counteracted by the strengthening of the mode induced by the ZnO. However, in the case of the Sezawa modes, the attenuation is strongly reduced taking advantage of the depth profile of their acoustic Poynting vectors, that extend deeper into the layered system, reducing the energy radiated into the fluid. Thus, both tailored modes will be suitable for acoustically-driven single-electron and single-photon devices in ZnO-coated GaAs-based systems with the best thermal stability provided by the liquid helium bath.
Keywords :
II-VI semiconductors; III-V semiconductors; acoustoelectric effects; gallium arsenide; semiconductor heterojunctions; surface acoustic waves; thermal stability; wide band gap semiconductors; zinc compounds; Rayleigh modes; Sezawa modes; ZnO-GaAs; ZnO-GaAs system; ZnO-coated GaAs-based systems; acoustic Poynting vectors; acoustically-driven single-electron; attenuation; depth profile; energy radiation; layered system; liquid helium bath; single-electron transport applications; single-photon devices; surface acoustic waves; thermal stability; Abstracts; Gallium arsenide; Irrigation; Liquids; Surface acoustic waves; Zinc oxide; acoustic Poynting vector; liquid helium; single-electron transport; surface acoustic wave (SAW);
Conference_Titel :
Ultrasonics Symposium (IUS), 2012 IEEE International
Conference_Location :
Dresden
Print_ISBN :
978-1-4673-4561-3
DOI :
10.1109/ULTSYM.2012.0194
