Title: Dynamical decoupling and recoupling of the Wigner solid to a liquid helium substrate
Authors: Rees, David G.
Yeh, Sheng-Shiuan
Lee, Ban-Chen
Schnyder, Simon K.
Williams, Francis I. B.
Lin, Juhn-Jong
Kono, Kimitoshi
電子物理學系
物理研究所
國際半導體學院
Department of Electrophysics
Institute of Physics
International College of Semiconductor Technology
Issue Date: 24-Aug-2020
Abstract: We investigate the dynamical interaction between an electron crystal trapped above the surface of liquid helium and surface waves ('ripplons') excited by its motion. At rest, the electron system is 'dressed' by static ripplons to form 'ripplopolaron' states. As the electrons move, resonant ripplon scattering results in a growth of the ripplopolaron effective mass, on timescales comparable with the inverse of the ripplon frequency (similar to 100 ns). Under sufficient driving force, the electron system decouples from the surface waves and moves at high velocity, before decelerating sharply when the electron solid and surface excitations recouple to form a 'new' ripplopolaron system. The mass of the newly formed ripplopolarons is similar to that in the initial static case.
URI: http://dx.doi.org/10.1103/PhysRevB.102.075439
http://hdl.handle.net/11536/155429
ISSN: 2469-9950
DOI: 10.1103/PhysRevB.102.075439
Journal: PHYSICAL REVIEW B
Volume: 102
Issue: 7
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