We report both linear and non-linear magnetoconductance measurements on two different density samples of similar stoichiometry Hg sub (1-x) Cd sub x Te for 0.01 T 2.5K and 0 H 80 KOe.
Metals expanded by heating toward the liquid-gas critical point yield a remarkable low density metallic state before passing through a metal-nonmetal transition.
At a very low-temperature of 9 mK, electrons in the second Landau level of an extremely high-mobility two-dimensional electron system exhibit a very complex electronic behavior.
The appropriate quantum-mechanical description for electron- conducting polymers hinges upon whether behavior is better explained with delocalized wavefunctions, the band-model approach, or by loc
A description is given of apparatus specially designed for the Paris International Exhibition of 1937 in which it was desired that the diffraction of electrons could be shown to the public in such
We have carried out the first electron diffraction study of thin freely suspended liquid crystal films.
Electron drag between two two-dimensional electron systems has been measured in intermediate magnetic fields (h/tau h omega(c)similar to k(B)T) with a relatively low electron density.
We study single-electron quantum dots on a helium surface created by electrodes submerged into the helium. The parameters of the dots are electrostatically controlled.
We derive a simple but general formula for the width of the quasielastic peak in inelastic electron scattering from doped semiconductors which is used to analyze the space charge region at the GaAs
Electronic excitation spectra in the icosahedral Al(6)Mn have been studied by electron energy-loss spectroscopy. Comparisons to the crystalline orthorhombic Al(6)Mn are also made.
