15 research outputs found
Mid-infrared Hall effect in thin-film metals: Probing the Fermi surface anisotropy in Au and Cu
A sensitive mid-infrared (MIR, 900-1100 cm-1, 112-136 meV) photo-elastic
polarization modulation technique is used to measure simultaneously Faraday
rotation and circular dichroism in thin metal films. These two quantities
determine the complex AC Hall conductivity. This novel technique is applied to
study Au and Cu thin films at temperatures down to 20 K and magnetic fields up
to 8 T. The Hall frequency is consistent with band theory predictions. We
report the first measurement of the MIR Hall scattering rate, which is
significantly lower than that derived from Drude analysis of zero magnetic
field MIR transmission measurements. This difference is qualitatively explained
in terms of the anisotropy of the Fermi surface in Au and Cu.Comment: 14 pages of text, 5 figure
Strain effect on electronic transport and ferromagnetic transition temperature in LaSrMnO thin films
We report on a systematic study of strain effects on the transport properties
and the ferromagnetic transition temperature of high-quality
LaSrMnO thin films epitaxially grown on (100) SrTiO
substrates. Both the magnetization and the resistivity are critically dependent
on the film thickness. is enhanced with decreasing the film thickness
due to the compressive stain produced by lattice mismatch. The resistivity
above 165 K of the films with various thicknesses is consistent with small
polaronic hopping conductivity. The polaronic formation energy is
reduced with the decrease of film thickness. We found that the strain
dependence of mainly results from the strain-induced electron-phonon
coupling. The strain effect on is in good agreement with the
theoretical predictions.Comment: 6 pages and 5 figures, accepted for publication in Phys. Rev.