4,305 research outputs found
Lattice-form dependent orbital shape and charge disproportionation in charge- and orbital-ordered manganites
The orbital shapes and charge disproportionations at nominal Mn and
Mn sites for the charge- and orbital-ordered phases have been studied on
half-doped manganites Pr(SrCa)MnO and
EuCaMnO with double-layer and single-layer Mn-O networks,
respectively, by means of x-ray structural analyses, in comparison with
PrCaMnO with the pseudo cubic network. In a single-layer
EuCaMnO system, the ()/()-type orbital
shape is observed, while the ()/()-type orbital shape in a
pseudo cubic PrCaMnO system. In a double-layer
Pr(SrCa)MnO system, the orbital shape is found to
undergo a large change upon thermally induced rotation of orbital stripe.
Furthermore, clear charge disproportionation is observed for the pseudo cubic
and double-layer systems, while not in the single-layer system. These results
indicate that the orbital shape and charge disproportionation are sensitive to
the dimension of Mn-O network.Comment: 12 page, 5 figures, 11 table
Zeeman Spectroscopy of the Star Algebra
We solve the problem of finding all eigenvalues and eigenvectors of the
Neumann matrix of the matter sector of open bosonic string field theory,
including the zero modes, and switching on a background B-field. We give the
discrete eigenvalues as roots of transcendental equations, and we give
analytical expressions for all the eigenvectors.Comment: (1, 25) pages, 2 Figure
Enhanced quasiparticle heat conduction of the multigap superconductor Lu2Fe3Si5
The thermal transport measurements have been made on the Fe-based
superconductor Lu2Fe3Si5 (Tc ~ 6 K) down to a very low temperature Tc/120. The
field and temperature dependences of the thermal conductivity confirm the
multigap superconductivity with fully opened gaps on the whole Fermi surfaces.
In comparison to MgB2 as a typical example of the multigap superconductor in a
p-electron system, Lu2Fe3Si5 reveals a remarkably enhanced quasiparticle heat
conduction in the mixed state. The results can be interpreted as a consequence
of the electronic correlations derived from Fe 3d-electrons.Comment: 5 pages, 4 figure
Electrically Enhanced Free Dendrite Growth in Polar and Non-polar Systems
We describe the electrically enhanced growth of needle crystals from the
vapor phase, for which there exists a morphological instability above a
threshold applied potential. Our improved theoretical treatment of this
phenomenon shows that the instability is present in both polar and non-polar
systems, and we provide an extension of solvability theory to include
electrical effects. We present extensive experimental data for ice needle
growth above the electrical threshold, where at C high-velocity
shape-preserving growth is observed. These data indicate that the needle tip
assumes an effective radius} which is nearly independent of both
supersaturation and the applied potential. The small scale of and
its response to chemical additives suggest that the needle growth rate is being
limited primarily by structural instabilities, possibly related to surface
melting. We also demonstrate experimentally that non-polar systems exhibit this
same electrically induced morphological instability
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