2,153 research outputs found
A microscopic modeling of phonon dynamics and charge response in metallic BaBiO
We use our recently proposed microscopic modeling in the framework of linear
response theory to investigate the complete phonon dispersion, the phonon
density of states, certain phonon-induced electronic charge distributions and
charge fluctuations (CF's) for anomalous soft modes of metallic BaBiO in
its simple cubic phase where superconductivity with up to 32 K appears.
The theoretical approach already has been applied successfully to the cuprate
high-temperature superconductors (HTSC's), simple ionic crystals (NaCl, MgO)
and perovskite oxides (SrTiO, BaTiO). It is well suited for
materials with a strong component of ionic binding and especially for "ionic"
metals. In particular, the giant phonon anomalies related to the breathing
vibration of the oxygen as found experimentally in superconducting doped
BaKBiO, resembling those observed in the high
cuprates, are investigated. The origin of these anomalies is explored and
attributed to a strong nonlocal coupling of the displaced oxygen ions to CF's
of ionic type, essentially of the Bi6s- and Bi6p orbital. This points to the
importance of both of these states at the Fermi energy. Starting from an
ab-initio rigid ion model (RIM) we calculate the effect on the lattice dynamics
and charge response of the most important electronic polarization processes in
the material, i.e. CF's and dipole fluctuations (DF's). Taking into account
these electronic degrees of freedom in linear response theory, we obtain a good
agreement with the measured phonon dispersion and in particular with the strong
phonon anomalies.Comment: Additional comparison with the cuprate HTSC's. A slightly shorter
version has been published in PR
A new method of alpha ray measurement using a Quadrupole Mass Spectrometer
We propose a new method of alpha()-ray measurement that detects
helium atoms with a Quadrupole Mass Spectrometer(QMS). A demonstration is
undertaken with a plastic-covered Am -emitting source to detect
-rays stopped in the capsule. We successfully detect helium atoms that
diffuse out of the capsule by accumulating them for one to 20 hours in a closed
chamber. The detected amount is found to be proportional to the accumulation
time. Our method is applicable to probe -emitting radioactivity in bulk
material.Comment: 8 pages, 6 figure
Towards a model-independent constraint of the high-density dependence of the symmetry energy
Neutron-proton elliptic flow difference and ratio have been shown to be
promising observables in the attempt to constrain the density dependence of the
symmetry energy above the saturation point from heavy-ion collision data. Their
dependence on model parameters like microscopic nucleon-nucleon cross-sections,
compressibility of nuclear matter, optical potential, and symmetry energy
parametrization is thoroughly studied. By using a parametrization of the
symmetry energy derived from the momentum dependent Gogny force in conjunction
with the T\"{u}bingen QMD model and comparing with the experimental FOPI/LAND
data for 197Au+197Au collisions at 400 MeV/nucleon, a moderately stiff, x=-1.35
+/- 1.25, symmetry energy is extracted, a result that agrees with that of a
similar study that employed the UrQMD transport model and a momentum
independent power-law parametrization of the symmetry energy. This contrasts
with diverging results extracted from the FOPI ratio
available in the literature.Comment: 18 pages, 3 figures, accepted for publication in Phys. Rev.
Modification of surface energy in nuclear multifragmentation
Within the statistical multifragmentation model we study modifications of the
surface and symmetry energy of primary fragments in the freeze-out volume. The
ALADIN experimental data on multifragmentation obtained in reactions induced by
high-energy projectiles with different neutron richness are analyzed. We have
extracted the isospin dependence of the surface energy coefficient at different
degrees of fragmentation. We conclude that the surface energy of hot fragments
produced in multifragmentation reactions differs from the values extracted for
isolated nuclei at low excitation. At high fragment multiplicity, it becomes
nearly independent of the neutron content of the fragments.Comment: 11 pages with 13 figure
Control of the woolly apple aphid (Erisoma lanigerum Hausm.) by releasing earwigs (Forficula auricularia L.) and support oil applications - an interim report of first year results
The woolly apple aphid (Erisoma lanigerum Hausm.) has been recognised for some years as
a serious pest in organic fruit growing where they may cause severe economic damage due
to a lack of control strategies. Based on preliminary results a new project has been started in
2007 testing combinations of releasing earwigs and oil applications in order to develop an onfarm
control strategy. In this paper we present preliminary results of the first year of the
project´s field trials. They showed good efficacies for applying oil preparations by brush. The
efficacy of releasing earwigs depended on the infestation intensity
Observation of the phononic Lamb shift with a synthetic vacuum
The quantum vacuum fundamentally alters the properties of embedded particles.
In contrast to classical empty space, it allows for creation and annihilation
of excitations. For trapped particles this leads to a change in the energy
spectrum, known as Lamb shift. Here, we engineer a synthetic vacuum building on
the unique properties of ultracold atomic gas mixtures. This system makes it
possible to combine high-precision spectroscopy with the ability of switching
between empty space and quantum vacuum. We observe the phononic Lamb shift, an
intruiguing many-body effect orginally conjectured in the context of solid
state physics. Our study therefore opens up new avenues for high-precision
benchmarking of non-trivial theoretical predictions in the realm of the quantum
vacuum
Compactification of M<SUB>P<SUB>3</SUB></SUB>(0,2) and Poncelet pairs of conics
Let M(0, 2) denote the quasi-projective variety of isomorphism classes of stable rank 2 vector bundles on P3(C) with C1=0 and C2=2 . In this paper we study a natural (irreducible) compactification of M(0, 2) and describe explicitly the sheaves on P3 which occur in the closure of M(0, 2) in the moduli space of semi-stable sheaves on P3 with c1= 0, c2=2 and c3=0
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