388 research outputs found
Electron-phonon coupling and its evidence in the photoemission spectra of lead
We present a detailed study on the influence of strong electron-phonon
coupling to the photoemission spectra of lead. Representing the strong-coupling
regime of superconductivity, the spectra of lead show characteristic features
that demonstrate the correspondence of physical properties in the normal and
the superconducting state, as predicted by the Eliashberg theory. These
features appear on an energy scale of a few meV and are accessible for
photoemission only by using modern spectrometers with high resolution in energy
and angle.Comment: 4 pages, 4 figures, accepted for publication in Phys. Rev. Let
High Resolution Photoemission Study on Low-T_K Ce Systems: Kondo Resonance, Crystal Field Structures, and their Temperature Dependence
We present a high-resolution photoemission study on the strongly correlated
Ce-compounds CeCu_6, CeCu_2Si_2, CeRu_2Si_2, CeNi_2Ge_2, and CeSi_2. Using a
normalization procedure based on a division by the Fermi-Dirac distribution we
get access to the spectral density of states up to an energy of 5 k_BT above
the Fermi energy E_F. Thus we can resolve the Kondo resonance and the crystal
field (CF) fine-structure for different temperatures above and around the Kondo
temperature T_K. The CF peaks are identified with multiple Kondo resonances
within the multiorbital Anderson impurity model. Our theoretical 4f spectra,
calculated from an extended non-crossing approximation (NCA), describe
consistently the observed photoemission features and their temperature
dependence. By fitting the NCA spectra to the experimental data and
extrapolating the former to low temperatures, T_K can be extracted
quantitatively. The resulting values for T_K and the crystal field energies are
in excellent agreement with the results from bulk sensitive measurements, e.g.
inelastic neutron scattering.Comment: 16 two-column pages, 10 figure
Structure and transport in multi-orbital Kondo systems
We consider Kondo impurity systems with multiple local orbitals, such as rare
earth ions in a metallic host or multi--level quantum dots coupled to metallic
leads. It is shown that the multiplet structure of the local orbitals leads to
multiple Kondo peaks above the Fermi energy , and to ``shadow'' peaks
below . We use a slave boson mean field theory, which recovers the strong
coupling Fermi liquid fixed point, to calculate the Kondo peak positions,
widths, and heights analytically at T=0, and NCA calculations to fit the
temperature dependence of high--resolution photoemission spectra of Ce
compounds. In addition, an approximate conductance quantization for transport
through multi--level quantum dots or single--atom transistors in the Kondo
regime due to a generalized Friedel sum rule is demonstrated.Comment: 4 pages, 3 figures. Invited article, 23rd International Conference on
Low Temperature Physics LT23, Hiroshima, Japan 200
Experimental study of slow sand filtration for the treatment of various wastewaters in tropical environment
Wastewater treatment by slow sand filtration is a biological process which consists in filtering wastewater through a porous media. The objective of this study was to evaluate the performances of this biotechnology under tropical climate. Three sand filters were monitored at ONAS (Cambérène wastewater treatment plant in Dakar, Senegal). The filters were built with local materials, and were constituted with a feeding tank of approximately 180 litters, a column (two meters high and 30-25 cm diameter). The filters were filled with sand (75 cm), gravel (25 cm) and wastewater (90 cm). The results showed that with sand of d10 equal to 0.58 mm and flow rate of 0.05 m/h, the filtration cycle was relatively long for the first run with pretreated wastewater. At the level of the primary settling tank, with flow a rate of 0.08 m/h, the removal rates were about 12.75%, 16.31%, 12.92%, 5.45%, 7.09% and 10.50% for TSS, COD, BOD5, nitrogen phosphorus and faecal coliforms respectively. At the level of the clarifier, with a filtration of 0.15 m/h, the removals were 1.4% for TSS, 1.84% for COD, 1.09% for BOD5 11.38% for nitrogen, 5.18% for phosphorus and 1.74% of faecal coliforms.Keywords: Flow rate; filtration cycle, removal; sand filtration; tropical climate, wastewater
Signature of quantum criticality in photoemission spectroscopy at elevated temperature
A quantum phase transition (QPT) in a heavy-fermion (HF) compound may destroy
the Fermi liquid groundstate. However, the conditions for this breakdown have
remained obscure. We report the first direct investigation of heavy
quasiparticle formation and breakdown in the canonical system
CeCuAu by ultraviolet photoemission spectroscopy at elevated
temperatures without the complications of lattice coherence. Surprisingly, the
single-ion Kondo energy scale exhibits an abrupt step near the quantum
critical Au concentration of . We show theoretically that this step is
expected from a highly non-linear renormalization of the local spin coupling at
each Ce site, induced by spin fluctuations on neighboring sites. It provides a
general high-temperature indicator for HF quasiparticle breakdown at a QPT.Comment: Published version, PRL, minor changes in wordin
Temperature dependence of the Kondo resonance and its satellites in CeCu_2Si_2
We present high-resolution photoemission spectroscopy studies on the Kondo
resonance of the strongly-correlated Ce system CeCuSi. Exploiting the
thermal broadening of the Fermi edge we analyze position, spectral weight, and
temperature dependence of the low-energy 4f spectral features, whose major
weight lies above the Fermi level . We also present theoretical
predictions based on the single-impurity Anderson model using an extended
non-crossing approximation (NCA), including all spin-orbit and crystal field
splittings of the 4f states. The excellent agreement between theory and
experiment provides strong evidence that the spectral properties of
CeCuSi can be described by single-impurity Kondo physics down to K.Comment: 4 pages, 3 figure
Atomic correlations in itinerant ferromagnets: quasi-particle bands of nickel
We measure the band structure of nickel along various high-symmetry lines of
the bulk Brillouin zone with angle-resolved photoelectron spectroscopy. The
Gutzwiller theory for a nine-band Hubbard model whose tight-binding parameters
are obtained from non-magnetic density-functional theory resolves most of the
long-standing discrepancies between experiment and theory on nickel. Thereby we
support the view of itinerant ferromagnetism as induced by atomic correlations.Comment: 4 page REVTeX 4.0, one figure, one tabl
Détermination du débit de filtration glomérulaire (DFG) au cours du diabète : Cockroft et Gault, MDRD ou CKD-EPI ?
Plusieurs paramètres peuvent être étudiés pour évaluer le rein. Parmi ceux-ci, le débit de filtration glomérulaire (DFG) a été déterminé avec les formules de Cockroft et Gault (CG), du Modification of Diet in Renal Disease (MDRD) et du Chronic Kidney Disease EPIdemiology Collaboration (CKD-EPI) et la formule la mieux adaptée pour le diabétique a été recherchée. Chez 59 diabétiques de type 1 (DT1) et 70 diabétiques de type 2 (DT2), le DFG a été déterminé avec les formules de CG, du MDRD et du CKD-EPI. Avec l’analyse statistique, les seuils de significativité ont été fixés pour p<0,05 ; T0α>1,96 et Z0α>1,96. Le MDRD est superposable au CKD-EPI chez les DT1 et DT2. Chez les DT1, le DFG moyen et la corrélation entre 1/créatininémie et DFG ne varient pas si CG ou CKD-EPI ; cependant, les sujets à DFG réduit (< 90 ml/min/1,73 m²) sont plus nombreux avec CG plutôt qu’avec CKD-EPI (66,10% vs 47,46% ; T0α=2,05). Chez les DT2, le DFG moyen et la proportion de sujets à DFG réduit sont indépendants de la formule utilisée, mais la corrélation entre 1/créatininémie et DFG est plus forte si CKD-EPI que CG (0,961 vs 0,632 ; Z0α=7,02). Ainsi, la formule la mieux adaptée pour la détermination du DFG serait CG chez les DT1 et CKD-EPI chez les DT2, sachant que CKD-EPI est équivalent à MDRD quel que soit le type de diabète.Mots clés : Cockroft et Gault - MDRD - CKD-EPI – débit de filtration glomérulaire (DFG) – diabète
Demand-Side Food Policies for Public and Planetary Health
Background: The current food system has major consequences for the environment and for human health. Alignment of the food policy areas of mitigating climate change and public health will ensure coherent and effective policy interventions for sustaining human health and the environment. Thispaperexploresliteratureondemand-sidepoliciesthataimtoreduceconsumptionof animal-basedfoods,increaseplant-basedfoods,andreduceoverconsumption. Methods:Wesearched for publications, published between January 2000 and December 2019, considering the above policy domains. Articles were distinguished for type of policy instrument, for topic via keywords and examples were given. Results: The majority of demand-side policies focus on preventing overweight and obesity, using all types of policy instruments including more forceful market-based policies. Hardly any examples of public policies explicitly aiming to lower animal-based foods consumption were found. Policies combining health and sustainability objectives are few and mainly of the information type. Discussion: Moving towards environmentally sustainable and healthy diets is challenging as the implemented demand-side policies focus largely on human health, and not yet on environmental outcomes, or on win-wins. Policies targeting foods from the health perspective can contribute to lower environmental impacts, by indicating suitable animal-based food replacers, and aiming at avoiding overconsumption of energy dense-nutrient poor foods. Preferred policies include a variety of instruments, including strong measures. Conclusions: Working solutions are available to ensure coherent and effective demand side food policies aligning public health and environmental aims. Implementation of aligned and effective policy packages is urgent and needed.© 2020 by the authorspublishedVersio
Long-range Kondo signature of a single magnetic impurity
The Kondo effect, one of the oldest correlation phenomena known in condensed
matter physics, has regained attention due to scanning tunneling spectroscopy
(STS) experiments performed on single magnetic impurities. Despite the
sub-nanometer resolution capability of local probe techniques one of the
fundamental aspects of Kondo physics, its spatial extension, is still subject
to discussion. Up to now all STS studies on single adsorbed atoms have shown
that observable Kondo features rapidly vanish with increasing distance from the
impurity. Here we report on a hitherto unobserved long range Kondo signature
for single magnetic atoms of Fe and Co buried under a Cu(100) surface. We
present a theoretical interpretation of the measured signatures using a
combined approach of band structure and many-body numerical renormalization
group (NRG) calculations. These are in excellent agreement with the rich
spatially and spectroscopically resolved experimental data.Comment: 7 pages, 3 figures + 8 pages supplementary material; Nature Physics
(Jan 2011 - advanced online publication
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