11,599 research outputs found
Giant Intrinsic Spin and Orbital Hall Effects in Sr2MO4 (M=Ru,Rh,Mo)
We investigate the intrinsic spin Hall conductivity (SHC) and the d-orbital
Hall conductivity (OHC) in metallic d-electron systems, by focusing on the
t_{2g}-orbital tight-binding model for Sr2MO4 (M=Ru,Rh,Mo). The conductivities
obtained are one or two orders of magnitude larger than predicted values for
p-type semiconductors with 5% hole doping. The origin of these giant Hall
effects is the ``effective Aharonov-Bohm phase'' that is induced by the
d-atomic angular momentum in connection with the spin-orbit interaction and the
inter-orbital hopping integrals. The huge SHC and OHC generated by this
mechanism are expected to be ubiquitous in multiorbital transition metal
complexes, which pens the possibility of realizing spintronics as well as
orbitronics devices.Comment: 5 pages, accepted for publication in PR
Fermi Surface of 3d^1 Perovskite CaVO3 Near the Mott Transition
We present a detailed de Haas van Alphen effect study of the perovskite
CaVO3, offering an unprecedented test of electronic structure calculations in a
3d transition metal oxide. Our experimental and calculated Fermi surfaces are
in good agreement -- but only if we ignore large orthorhombic distortions of
the cubic perovskite structure. Subtle discrepancies may shed light on an
apparent conflict between the low energy properties of CaVO3, which are those
of a simple metal, and high energy probes which reveal strong correlations that
place CaVO3 on the verge of a metal-insulator transition.Comment: 4 pages, 4 figures (REVTeX
Correlation Inequalities for Quantum Spin Systems with Quenched Centered Disorder
It is shown that random quantum spin systems with centered disorder satisfy
correlation inequalities previously proved (arXiv:cond-mat/0612371) in the
classical case. Consequences include monotone approach of pressure and ground
state energy to the thermodynamic limit. Signs and bounds on the surface
pressures for different boundary conditions are also derived for finite range
potentials.Comment: 4 page
Two dimensional periodic box-ball system and its fundamental cycle
We study a 2-dimensional Box-Ball system which is a ultradiscrete analog of
the discrete KP equation. We construct an algorithm to calculate the
fundamental cycle, which is an important conserved quantity of the 2-dim.
Box-Ball system with periodic boundary condition, by using the tropical curve
theory.Comment: 16 pages, 5 figure
Elderly Motion Analysis to Estimate Emotion: A Systematic Review
This paper presents a systematic review focusing on motion analysisbased emotion estimation in the elderly. Addressing a critical concern, it highlights the challenge of effectively monitoring emotions in older adults and emphasizes the potential development of serious disorders resulting from emotional neglect. The study underscores the importance of emotional well-being in care facilities, where the willingness of elderly individuals to receive care is closely tied to their emotional state. Health practitioners often encounter difficulties when elderly individuals resist care due to emotional dissatisfaction, making monitoring changes in emotional states essential and necessitating comprehensive care records. Through an exhaustive examination of existing literature, the paper suggests that motion-based emotion recognition shows promise in addressing this challenge. Utilizing the PRISMA protocol, the study conducts a qualitative analysis of the impact of motion analysis on emotion estimation. It outlines the current methodologies employed in research and reveals a significant correlation between body motion cues and emotional states in the elderly. Furthermore, it positions motion-based emotion estimation as a viable solution for addressing emotional well-being in older adults and offers guidelines for researchers interested in this area. Based on our study we consider the first review of this kind on motion-based emotion estimation for the elderly, providing insights into potential advancements in addressing emotional well-being in this demographic
Tunnel magnetoresistance and interfacial electronic state
We study the relation between tunnel magnetoresistance (TMR) and interfacial
electronic states modified by magnetic impurities introduced at the interface
of the ferromagnetic tunnel junctions, by making use of the periodic Anderson
model and the linear response theory. It is indicated that the TMR ratio is
strongly reduced depending on the position of the -levels of impurities,
based on reduction in the spin-dependent -electron tunneling in the majority
spin state. The results are compared with experimental results for Cr-dusted
ferromagnetic tunnel junctions, and also with results for metallic multilayers
for which similar reduction in giant magnetoresistance has been reported.Comment: 5 pages, 4 figures, 2 column revtex4 format, ICMFS 2002 (Kyoto
Low-molecular weight heparin protamine complex augmented the potential of adipose-derived stromal cells to ameliorate limb ischemia
Center for Regenerative Medicine, Research Support Center, Dokkyo Medical University, Mibu, Tochigi, JapanCenter for Regenerative Medicine, Research Support Center, Dokkyo Medical University, Mibu, Tochigi, JapanCenter for Regenerative Medicine, Department of Cardiovascular Medicine, Dokkyo Medical University, Mibu, Tochigi, JapanCenter for Regenerative Medicine, Department of Cardiovascular Medicine, Dokkyo Medical University, Mibu, Tochigi, JapanCenter for Regenerative Medicine, Research Support Center, Dokkyo Medical University, Mibu, Tochigi, Japan:Department of Cardiology, Koshigaya Hospital, Dokkyo Medical University, Koshigaya, Saitama, JapanCenter for Regenerative Medicine, Research Support Center, Department of Cardiovascular Medicine, Dokkyo Medical University, Mibu, Tochigi, JapanCenter for Regenerative Medicine, Dokkyo Medical University, Mibu, Tochigi, Japa
Band-width control in a perovskite-type 3d^1 correlated metal Ca_1-xSr_xVO_3. II. Optical spectroscopy investigation
Optical conductivity spectra of single crystals of Ca_1-xSr_xVO_3 have been
studied to elucidate how the electronic behavior depends on the strength of the
electron correlation without changing the nominal number of electrons per
vanadium atom. The effective mass deduced by the analysis of the Drude-like
contribution do not show critical enhancement, even though the system is close
to the Mott transition. Besides the Drude-like contribution, two anomalous
features were observed in the optical conductivity spectra of the intraband
transition within the 3d band. These features can be assigned to transitions
involving the incoherent and coherent bands near the Fermi level. The large
spectral weight redistribution in this system, however, does not involve a
large mass enhancement.Comment: 12 pages in a Phys. Rev. B camera-ready format with 16 EPS figures
embedded. LaTeX 2.09 source file using "camera.sty" and "prbplug.sty"
provided by N. Shirakawa. For OzTeX (Macintosh), use "ozfig.sty" instead of
"psfig.sty". "ozfig.sty" can be also obtained by e-mail request to N.
Shirakawa: . Submitted to Phys. Rev. B. See "Part I (by
Inoue et al.)" at cond-mat/980107
Bose-Einstein condensation of semi-hard bosons in S=1 dimerized organic compound F2PNNNO
An analysis of the energy spectrum and the magnetization curve of
two-dimensional organic antiferromagnet F2PNNNO with a spin-one dimerized
structure shows that a behavior of the compound in an external magnetic field
can be explained within a lattice boson model with an extended Pauli's
exclusion principle, i.e. no more than two bosons per a dimer. The unusual
magnetization curve observed experimentally in the compound reflects a sequence
of phase transitions intrinsic for a lattice boson system with strong on-site
and inter-site repulsions due to a tuning of magnon density by the applied
magnetic field
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