208 research outputs found
Theory of Pairing Assisted Spin Polarization in Spin-Triplet Equal Spin Pairing: Origin of Extra Magnetization in Sr_2RuO_4 in Superconducting State
It is shown that an extra magnetization is induced by an onset of the
equal-spin-pairing of spin triplet superconductivity if the energy dependence
of the density of states of quasiparticles exists in the normal state. It turns
out that the effect is observable in Sr_2RuO_4 due to the existence of van Hove
singularity in the density of states near the Fermi level, explaining the extra
contribution in the Knight shift reported by Ishida et al. It is also quite
non-trivial that this effect exists even without external magnetic field, which
implies that the time reversal symmetry is spontaneously broken in the spin
space.Comment: published in J. Phys. Soc. Jpn. online on April 10, 2014; free access
for one mont
Competition between Hund-Rule Coupling and Kondo Effect
We investigate a problem about the competition between the hybridization and
the Hund-rule coupling by applying the Wilson numerical renormalization-group
method to the extended Kondo model where the impurity spin interacts via the
Hund-rule coupling, with an extra spin which is isolated from the conduction
electrons. It is shown that the Hund-rule coupling is an irrelevant
perturbation against the strong coupling fixed point. However, the Hund-rule
coupling decreases the characteristic energy drastically to the lower
side and the irrelevant operator, which describes the low energy physics, takes
a form of ferromagnetic exchange interaction between the extra spin and the
Kondo resonance states because of the existence of the Hund-rule coupling.Comment: 5 pages, LaTeX, 5 figures in one PS file, Submitted to J. Phys. Soc.
Jp
Sharp Valence Change as Origin of Drastic Change of Fermi Surface and Transport Anomalies in CeRhIn5 under Pressure
The drastic changes of Fermi surfaces as well as transport anomalies near
P=Pc~2.35 GPa in CeRhIn5 are explained theoretically from the viewpoint of
sharp valence change of Ce. It is pointed out that the key mechanism is the
interplay of magnetic order and Ce-valence fluctuations. It is shown that the
antiferromagnetic state with "small" Fermi surfaces changes to the paramagnetic
state with "large" Fermi surfaces with huge enhancement of effective mass of
electrons with keeping finite c-f hybridization. This naturally explains the de
Haas-van Alphen measurement and also the transport anomalies of T-linear
resistivity emerging simultaneously with the residual resistivity peak at P=Pc
in CeRhIn5.Comment: 4 pages, 2 figures, to appear in Journal of Physics: Conference
Serie
Effects of Crystalline Electronic Field and Onsite Interorbital Interaction in Yb-based Quasicrystal and Approximant Crystal
To get an insight into a new type of quantum critical phenomena recently
discovered in the quasicrystal YbAlAu and approximant
crystal (AC) YbAlAu under pressure, we discuss the
property of the crystalline electronic field (CEF) at Yb in the AC and show
that uneven CEF levels at each Yb site can appear because of the Al/Au mixed
sites. Then we construct the minimal model for the electronic state on the AC
by introducing the onsite Coulomb repulsion between the 4f and 5d orbitals at
Yb. Numerical calculation for the ground state shows that the lattice constant
dependence of the Yb valence well explains the recent measurement done by
systematic substitution of elements of Al and Au in the quasicrystal and AC,
where the quasicrystal YbAlAu is just located at the point
from where the Yb-valence starts to change drastically. Our calculation
convincingly demonstrates that this is indeed the evidence that this material
is just located at the quantum critical point of the Yb-valence transition.Comment: 12 pages, 8 figures, Invited Paper in the 26th International
Conference on High Pressure Science & Technology (AIRAPT 26
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