Transport properties of a quasi-1D Wigner Solid on liquid helium confined in a microchannel with periodic potential
arXiv:1808.01055 · doi:10.1007/s10909-018-2089-7
Abstract
We present transport measurements in a quasi-1D system of surface electrons on liquid helium confined in a 101-$μ$m long and 5-$μ$m wide microchannel where an electrostatic potential with periodicity of $1$-$μ$m along the channel is introduced. In particular, we investigate the influence of such a potential on the nonlinear transport of quasi-1D Wigner Solid (WS) by varying the amplitude of the periodic potential in a wide range. At zero and small values of amplitude, quasi-1D WS in microchannel shows expected features such as the Bragg-Cherenkov scattering of ripplons and reentrant melting. As the amplitude of potential increases, the above features are strongly suppressed. This behavior suggests loss of the long-range positional order in the electron system, which is reminiscent of the re-entrant melting behaviour due to the lateral confinement of WS in the channel.