1,122 research outputs found
Density-functional theory for fermions in the unitary regime
In the unitary regime, fermions interact strongly via two-body potentials
that exhibit a zero range and a (negative) infinite scattering length. The
energy density is proportional to the free Fermi gas with a proportionality
constant . We use a simple density functional parametrized by an effective
mass and the universal constant , and employ Kohn-Sham density-functional
theory to obtain the parameters from fit to one exactly solvable two-body
problem. This yields and a rather large effective mass. Our approach
is checked by similar Kohn-Sham calculations for the exactly solvable Calogero
model.Comment: 5 pages, 2 figure
Anomalous Chiral Action from the Path-Integral
By generalizing the Fujikawa approach, we show in the path-integral
formalism: (1) how the infinitesimal variation of the fermion measure can be
integrated to obtain the full anomalous chiral action; (2) how the action
derived in this way can be identified as the Chern-Simons term in five
dimensions, if the anomaly is consistent; (3) how the regularization can be
carried out, so as to lead to the consistent anomaly and not to the covariant
anomaly. Our method uses Schwinger's ``proper-time'' representation of the
Green's function and the gauge invariant point-splitting technique. We find
that the consistency requirement and the point-splitting technique allow both
an anomalous and a non-anomalous action. In the end, the nature of the vacuum
determines whether we have an anomalous theory, or, a non-anomalous theoryComment: 28 page
Thermomechanical and morphological properties of poly(ethylene terephthalate)/anhydrous calcium terephthalate nanocomposites
Calcium terephthalate anhydrous salts (CATAS), synthetized by reaction of terephthalic acid with metal (Ca) oxide were incorporated at dierent weight contents (0-30 wt. %) in recycled Poly(ethylene terephthalate) (rPET) by melt processing. Their structure, morphology, thermal and mechanical properties (tensile and flexural behavior) were investigated. Results of tensile strength of the dierent formulations showed that when the CATAS content increased from 0.1 to 0.4 wt. %, tangible changes were observed (variation of tensile strength from 65.5 to 69.4 MPa, increasing value for E from 2887 up to 3131 MPa, respectively for neat rPET and rPET_0.4CATAS). A threshold weight amount (0.4 wt. %) of CATAS was also found, by formation at low loading, of a rigid amorphous fraction at the rPET/CATAS interface, due to the aromatic interactions (Ï€-Ï€ conjugation) between the matrix and the filler. Above the threshold, a restriction of rPET/CATAS molecular chains mobility was detected, due to the formation of hybrid mechanical percolation networks. Additionally, enhanced thermal stability of CATAS filled rPET was registered at high content (Tmax shift from 426 to 441 offiC, respectively, for rPET and rPET_30CATAS), essentially due to chemical compatibility between terephthalate salts and polymer molecules, rich in stable aromatic rings. The singularity of a cold crystallization event, identified at the same loading level, confirmed the presence of an equilibrium state between nucleation and blocking eect of amorphous phase, basically related to the characteristic common terephthalate structure of synthetized Ca-Metal Organic Framework and the rPET matrix
Frequency variation in site response as observed from strong motion data of the L’Aquila (2009) seismic sequence
Previous works based mainly on strong-motion recordings of large Japanese earthquakes showed that site amplification and soil fundamental frequency could vary over long and short time scales. These phenomena were attributed to non-linear soil behaviour: the starting fundamental frequency and amplification were both instantaneously decreasing and then recovering for a time varying from few seconds to several months. The recent April 6, 2009 earthquake (M W 6.3), occurred in the L’Aquila district (central Italy), gave us the possibility to test hypotheses on time variation of amplification function and soil fundamental frequency, thanks to the recordings provided by a pre-existing strong-motion array and by a large number of temporary stations. We investigated the intra- and inter-event soil frequency variations through different spectral analyses, including time-frequency spectral ratios and S-Transform (Stockwell et al. in IEEE Trans Signal Process 44:998–1001, 1996). Finally, analyses on noise recordings were performed, in order to study the soil behaviour in linear conditions. The results provided puzzling evidences. Concerning the long time scale, little variation was observed at the permanent stations of the Aterno Valley array. As for the short time-scale variation, the evidence was often contrasting, with some station showing a time-varying behavior, while others did not change their frequency with respect to the one evaluated from noise measurements. Even when a time-varying fundamental frequency was observed, it was difficult to attribute it to a classical, softening non-linear behaviour. Even for the strongest recorded shocks, with peak ground acceleration reaching 0.7 g, variations in frequency and amplitude seems not relevant from building design standpoint. The only exception seems to be the site named AQV, where the analyses evidence a fundamental frequency of the soil shifting from 3 Hz to about 1.5 Hz during the mainshock
Characterization of licorice root waste for prospective use as filler in more eco-friendly composite materials
The extraction of glycyrrhizin fromlicorice root and stolonwith ethanol/water solutions leaves a lignocellulosic residue, which could be potentially applied in biocomposites. This process proved difficult in principle, given the considerable hardness of this material as received, which impedes its use in polymer resins in large amounts. After ball milling, up to 10% of this fibrous residue, which shows very variable aspect ratio, was introduced into an epoxy matrix, to investigate its possible future application in sustainable polymers. Of the three composites investigated, containing 1, 5 and 10 wt% of licorice waste, respectively, by performing flexural testing, it was found that the introduction of an intermediate amount of filler proved the most suitable for possible development. Thermal characterization by thermogravimetry (TGA) did not indicate large variation of degradation properties due to the introduction of the filler. Despite the preliminary characteristics of this study, an acceptable resin-filler interface has been obtained for all filler contents. Issues to be solved in future study would be the possibility to include a larger amount of filler by better compatibilization and a more uniform distribution of the filler, considering their orientation, since most of it maintains an elongated geometry after ball milling
Ground Motion Prediction Equations Derived from the Italian Strong Motion Database
We present a set of ground motion prediction equations (GMPEs) derived for
the geometrical mean of the horizontal components and the vertical, considering the latest
release of the strong motion database for Italy. The regressions are performed over the magnitude
range 4–6.9 and considering distances up to 200 km. The equations are derived for peak
ground acceleration (PGA), peak ground velocity (PGV) and 5%-damped spectral acceleration
at periods between 0.04 and 2 s. The total standard deviation (sigma) varies between
0.34 and 0.38 log10 unit, confirming the large variability of ground shaking parameters when
regional data sets containing small to moderate magnitude events (M < 6) are used. The
between-stations variability provides the largest values for periods shorter than 0.2 s while,
for longer periods, the between-events and between-stations distributions of error provide
similar contribution to the total variabilit
Frequency variation in site response over long and short time scales, as observed from strong motion data of the L’Aquila (2009) seismic sequence
Previous works based mainly on strong-motion recordings of large
Japanese earthquakes showed that site amplification and soil fundamental frequency
could vary over long and short time scales. These phenomena were attributed
to non-linear soil behaviour due to inelastic, softening non-linearity: the
starting fundamental frequency and amplification were both decreasing and not
recovering for a time varying from few hours to several months. The recent April
6th 2009 earthquake (MW 6.3), occurred in the L'Aquila district (central Italy),
gave us the possibility to test hypotheses on time variation of amplification function
and soil fundamental frequency, thanks to the recordings provided by a preexisting
strong-motion array and by a large number of temporary stations. We performed
spectral ratio studies for the permanent stations of the Aterno Valley array
where a reference station was available. The temporary stations and permanent
ones were studied using time-frequency analyses through the S-Transform approach
(Stockwell et al., 1996). Finally, analyses on noise recordings were performed,
in order to study the soil behaviour in linear conditions. The results provided
puzzling evidences. Concerning the long time scale, little variation was
observed at the permanent stations of the Aterno Valley array. As for the short
time-scale variation, the evidence was often contrasting, with some station showing
a time-varying behavior, while others did not change their frequency with respect
to the one evaluated from noise HVSR. Even when a time-varying fundamental
frequency was observed, it was difficult to attribute it to a classical,
softening non-linear behaviour. Even for the strongest recorded shocks, with PGA
reaching 0.7 g, variations in frequency and amplitude seems not relevant from
building design standpoint. The only exception seems to be the site named AQV,
where the analyses evidence a fundamental frequency of the soil, shifting from 3
Hz to about 1.5 Hz during the mainshock
A small protein is involved in tryptophan biosynthesis and morpho-physiological differentiation in Streptomyces coelicolor
A small protein is involved in tryptophan biosynthesis and morpho-physiological differentiation in Streptomyces coelicolo
Pan-European ground-motion prediction equations for the average horizontal component of PGA, PGV, and 5 %-damped PSA at spectral periods up to 3.0 s using the RESORCE dataset
This article presents a set of Ground-Motion Prediction Equations (GMPEs) for Europe and the Middle East, derived from the RESORCE strong motion data bank, following a standard regression approach. The parametric GMPEs are derived for the peak ground acceleration, peak ground velocity, and 5 %-damped pseudo-absolute acceleration response spectra computed over 23 periods between 0.02 and 3 s, considering the average horizontal-component ground-motions. The GMPEs are valid for distances less than 300 km, hypocentral depth up to 35 km and over the magnitude range 4–7.6. Two metrics for the source-to-station distance (i.e. Joyner-Boore and hypocentral) are considered. The selected dataset is composed by 2,126 recordings (at a period of 0.1 s) related to 365 earthquakes, that includes strong-motion data from 697 stations.The EC8 soil classification (four classes from A to D) discriminates recording sites and four classes (normal, reverse, strike-slip, and unspecified) describe the style of faulting. A subset which contains only stations with measured Vs30 and earthquakes with specified focal mechanism (1,224 records from 345 stations and 255 earthquakes) is used to test of the accuracy of the median prediction and the variability associated to the broader data set. A random effect regression scheme is applied and bootstrap analyses are performed to estimate the 95 % confidence levels for the parameters. The total standard deviation sigma is decomposed into between-events and within-event components, and the site-to-site component is evaluated as well. The results show that the largest contribution to the total sigma is coming from the within-event component. When analyzing the residual distributions, no significant trends are observed that can be ascribed to the earthquake type (mainshock-aftershock classification) or to the non-linear site effects. The proposed GMPEs have lower median values than global models at short periods and large distances, while are consistent with global models at long periods (T>1) s. Consistency is found with two regional models developed for Turkey and Italy, as the considered dataset is dominated by waveforms recorded in these regions
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