1,343 research outputs found
Hybridization effects and multipole orders in Pr skutterudites
Theoretical account is given of 4f-electron dynamics and multipole orders in
Pr skutterudites with particular attention to (i) mechanism of the crystalline
electric field (CEF) splitting leading to a pseudo-quartet ground state;(ii)
Kondo effect due to exchange interactions involving the pseudo-quartet;(iii)
multipole orders in the lattice of the pseudo-quartet in magnetic
field.Competition between the point-charge interaction andhybridization between
4f and conduction electrons is identified as the key for controlling the CEF
splitting. It is found that one of two pseudo-spins forming the pseudo-quartet
has a ferromagnetic exchange, while the other has an antiferromagnetic exchange
with conduction electrons. The Kondo effect is clearly seen in the resistivity
calculated by the NCA, provided the low-lying triplet above the singlet is
mainly composed of the -type wave functions.If the weight of the
-type is large in the triplet, the Kondo effect does not appear.This
difference caused by the nature of the triplet explains the presence of the
Kondo effect inPrFeP, and its absence in PrOsSb.By taking
the minimal model with antiferro-quadrupole (AFQ) and ferro-type intersite
interactions for dipoles and octupoles between nearest-neighbors,the mean-field
theory reproduces the overall feature of the multiple ordered phases in
PrFeP. The AFQ order with the -type symmetry is found to
be stable only as a mixture of and components.Comment: 21 pages, to be published in proc. YKIS200
An order parameter equation for the dynamic yield stress in dense colloidal suspensions
We study the dynamic yield stress in dense colloidal suspensions by analyzing
the time evolution of the pair distribution function for colloidal particles
interacting through a Lennard-Jones potential. We find that the equilibrium
pair distribution function is unstable with respect to a certain anisotropic
perturbation in the regime of low temperature and high density. By applying a
bifurcation analysis to a system near the critical state at which the stability
changes, we derive an amplitude equation for the critical mode. This equation
is analogous to order parameter equations used to describe phase transitions.
It is found that this amplitude equation describes the appearance of the
dynamic yield stress, and it gives a value of 2/3 for the shear thinning
exponent. This value is related to the mean field value of the critical
exponent in the Ising model.Comment: 8 pages, 2 figure
Hadron-hadron interaction from SU(2) lattice QCD
We evaluate interhadron interactions in two-color lattice QCD from
Bethe-Salpeter amplitudes on the Euclidean lattice. The simulations are
performed in quenched SU(2) QCD with the plaquette gauge action at and the Wilson quark action. We concentrate on S-wave scattering states
of two scalar diquarks. Evaluating different flavor combinations with various
quark masses, we try to find out the ingredients in hadronic interactions.
Between two scalar diquarks (, the lightest baryon in SU(2)
system), we observe repulsion in short-range region, even though present quark
masses are not very light. We define and evaluate the "quark-exchange part" in
the interaction, which is induced by adding quark-exchange diagrams, or
equivalently, by introducing Pauli blocking among some of quarks. The repulsive
force in short-distance region arises only from the "quark-exchange part", and
disappears when quark-exchange diagrams are omitted. We find that the strength
of repulsion grows in light quark-mass regime and its quark-mass dependence is
similar to or slightly stronger than that of the color-magnetic interaction by
one-gluon-exchange (OGE) processes. It is qualitatively consistent with the
constituent-quark model picture that a color-magnetic interaction among quarks
is the origin of repulsion. We also find a universal long-range attractive
force, which enters in any flavor channels of two scalar diquarks and whose
interaction range and strength are quark-mass independent. The weak quark-mass
dependence of interaction ranges in each component implies that meson-exchange
contributions are small and subdominant, and the other contributions, {\it ex.}
flavor exchange processes, color-Coulomb or color-magnetic interactions, are
considered to be predominant, in the quark-mass range we evaluated.Comment: 14 pages, 20 figure
Self-Consistent Perturbation Theory for Thermodynamics of Magnetic Impurity Systems
Integral equations for thermodynamic quantities are derived in the framework
of the non-crossing approximation (NCA). Entropy and specific heat of 4f
contribution are calculated without numerical differentiations of thermodynamic
potential. The formulation is applied to systems such as PrFe4P12 with
singlet-triplet crystalline electric field (CEF) levels.Comment: 3 pages, 2 figures, proc. ASR-WYP-2005 (JAERI
Critical scaling of jammed system after quench of temperature
Critical behavior of soft repulsive particles after quench of temperature
near the jamming trasition is numerically investigated. It is found that the
plateau of the mean square displacement of tracer particles and the pressure
satisfy critical scaling laws. The critical density for the jamming transition
depends on the protocol to prepare the system, while the values of the critical
exponents which are consistent with the prediction of a phenomenology are
independent of the protocol.Comment: 7 pages, 9 figures, to appear in Phys. Rev.
Microscopic Mechanism for Staggered Scalar Order in PrFe4P12
A microscopic model is proposed for the scalar order in PrFe4P12 where f2
crystalline electric field (CEF) singlet and triplet states interact with two
conduction bands. By combining the dynamical mean-field theory and the
continuous-time quantum Monte Carlo, we obtain an electronic order with
staggered Kondo and CEF singlets with the total conduction number being unity
per site. The ground state becomes semimetallic provided that the two
conduction bands have different occupation numbers. This model naturally
explains experimentally observed properties in the ordered phase of PrFe4P12
such as the scalar order parameter, temperature dependence of the resistivity,
field-induced staggered moment, and inelastic features in neutron scattering.
The Kondo effect plays an essential role for ordering, in strong contrast with
ordinary magnetic orders by the RKKY interaction.Comment: 4 pages, 4figure
Electronic Orders Induced by Kondo Effect in Non-Kramers f-Electron Systems
This paper clarifies the microscopic nature of the staggered scalar order,
which is specific to even number of f electrons per site. In such systems,
crystalline electric field (CEF) can make a singlet ground state. As exchange
interaction with conduction electrons increases, the CEF singlet at each site
gives way to Kondo singlets. The collective Kondo singlets are identified with
itinerant states that form energy bands. Near the boundary of itinerant and
localized states, a new type of electronic order appears with staggered Kondo
and CEF singlets. We present a phenomenological three-state model that
qualitatively reproduces the characteristic phase diagram, which have been
obtained numerically with use of the continuous-time quantum Monte Carlo
combined with the dynamical mean-field theory. The scalar order observed in
PrFe_4P_{12} is ascribed to this staggered order accompanying charge density
wave (CDW) of conduction electrons. Accurate photoemission and tunneling
spectroscopy should be able to probe sharp peaks below and above the Fermi
level in the ordered phase.Comment: 7 pages, 8 figure
Unified description of long-time tails and long-range correlation functions for sheared granular liquids
Unified description on the long-time tail of velocity autocorrelation
function and the long-range correlation for the equal-time spatial correlation
functions is developed based on the generalized fluctuating hydrodynamics. The
cross-over of the long-time tail from to is predicted
independent of the density, and the equal-time spatial density correlation
function and the equal-time spatial velocity correlation function respectively
satisfy and for large limit.Comment: 10 pages. to be published in Euro. Phys. J.
Electronic Order with Staggered Kondo and Crystalline Electric Field Singlets
Novel electronic order is found theoretically for a system where even number
of localized electrons per site are coupled with conduction electrons. For
precise quantitative study, a variant of the Kondo lattice model is taken with
crystalline electric field (CEF) singlet and triplet states for each site.
Using the dynamical mean-field theory combined with the continuous-time quantum
Monte Carlo method, a staggered order with alternating Kondo and CEF singlets
is identified for a case with one conduction electron per site being
distributed in two conduction bands each of which is quarter-filled. This
electronic order accompanies a charge density wave (CDW) of conduction
electrons that accumulate more on Kondo-singlet sites than on CEF-singlet
sites. Possible relevance of the present order to the scalar order in
PrFeP is discussed.Comment: 11 pages, 17 figure
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