A.A. Menovsky scite author profile

Scanning tunneling spectroscopy was used to investigate single crystals and thin films of La(1-x)Ca(x)MnO(3) (with x of about 0.3), which exhibit colossal magnetoresistance. The different spectroscopic signatures of the insulating (paramagnetic) and metallic (ferromagnetic) phases enable their spatial extent to be imaged down to a lateral scale of the order of 10 nanometers. Above the bulk transition temperature T(c), the images show mostly insulating behavior. Below T(c), a phase separation is observed where inhomogeneous structures of metallic and more insulating areas coexist and are strongly field dependent in their size and structure. Insulating areas are found to persist far below T(c). These results suggest that the transition and the associated magnetoresistance behavior should be viewed as a percolation of metallic ferromagnetic domains.

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Hall-effect and resistivity study of the heavy-fermion systemURu2Si2
Schoenes
¹
,
Schönenberger
²
,
Franse
³

et al. 1987
Phys. Rev. B
152
16
100
0
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Tunneling spectroscopy on the correlation effects in FeSi

Fäth

Aarts

Menovsky

et al. 1999

Physica B: Condensed Matter

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We have performed electron tunneling spectroscopy on FeSi single crystals in the temperature range 4-300 K by using a scanning tunneling microscope. The differential conductance (dI/dV), when corrected for Schottky barrier effects, exhibits two strongly temperature-dependent peaks on either side of the Fermi level that emerge below Ϸ200 K and that are separated by a ͑pseudo͒gap of Ϸ50 meV. Our observations can be ascribed to the formation of quasiparticle density of states caused by d-electron correlation. The tunneling spectra are in good agreement with photoemission spectroscopy as both techniques probe the correlated d-electron density of states ͑DOS͒. Our results are also consistent with optical reflectivity data and Raman spectroscopy, which, in contrast, are sensitive to the conduction (c) electron DOS. ͓S0163-1829͑98͒08248-4͔

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A.A. Menovsky

Temperature-induced magnetization reversal in a YVO3 single crystal

Spatially Inhomogeneous Metal-Insulator Transition in Doped Manganites

Hall-effect and resistivity study of the heavy-fermion systemURu2Si2
Schoenes
¹
,
Schönenberger
²
,
Franse
³

et al. 1987
Phys. Rev. B
152
16
100
0
View full text Add to dashboard Cite

Tunneling spectroscopy on the correlation effects in FeSi

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About

A.A. Menovsky

Temperature-induced magnetization reversal in a YVO3 single crystal

Spatially Inhomogeneous Metal-Insulator Transition in Doped Manganites

Hall-effect and resistivity study of the heavy-fermion systemURu2Si2Schoenes1, Schönenberger2, Franse3 et al. 1987Phys. Rev. B152161000View full textAdd to dashboardCite

Tunneling spectroscopy on the correlation effects in FeSi

Contact Info

Product

Resources

About

Hall-effect and resistivity study of the heavy-fermion systemURu2Si2
Schoenes
¹
,
Schönenberger
²
,
Franse
³

et al. 1987
Phys. Rev. B
152
16
100
0
View full text Add to dashboard Cite