4,346 research outputs found
Studying the relationships between hourly precipitation extremes and dewpoint temperature in Sicily.
According to the well-known Clausius-Clapeyron relation, the maximum moisture content of the atmosphere increases
with approximately 7% per degree temperature raise (CC-scaling rate). Under the hypothesis that relative
humidity does not change, an increase in the water vapor should occur at the same rate. For this reason we could
expect for the coming years an increase in the intensity of extreme precipitation as a consequence of the global
climate warming.
Trend on precipitation extremes and possible links to changes in atmospheric temperature and moisture are investigated
in different parts of the world, and a number of observational studies has exhibited scaling rates that
are either higher (super-CC) or lower (sub-CC) than CC scaling rate depending on the climatic areas under analysis.
One of the most common approaches consists in a regression analysis to interpret the relationships between
extreme percentiles of rainfall and surface temperature, and this is often due to the lack of availability of consistent
historical data series for other variables of interest, such as the relative air humidity. In some applications,
combined temperature-humidity measures, such as the dew point temperature, have been used as proxy measures.
In this study we investigate, at the regional scale (Sicily, Italy), the scaling rate between hourly precipitation
extremes and dew point temperature. This last is then used as a measure of near surface absolute humidity and is
computed for each rainfall event at the same time (T0) and, 2 (T2) and 4 (T4) hours before the event occurrence.
The scaling rate is studied at both the level of entire hydrological year and the seasonal level, dividing the calendar
year in a wet, colder and more rainy, season and a dry warmer season.
The high-resolution dataset from the regional agency SIAS (Agro-meteorological Information Service of Sicily)
has been used and it is constituted by data of 10-min rainfall, hourly temperature and maximum hourly relative air
humidity, collected by 107 gauges from 2003 to 2015. The hourly temperature and maximum hourly relative air
humidity data are combined to provide hourly time-series of dew-point temperature at each gauge. The samples
from the different gauges are pooled together forming six different samples relative to six different sub-regions
defined within the Sicilian island and at the level of entire region (unique regional sample). At the level of single
sub-region a binning procedure is used, investigating the suitability of exponential regression models for interpreting
the relationships between dew point temperature (median for bin) and extreme rainfall intensity (95th percentile
for bin). A LOESS (LOcally-wEighted Scatter-plot Smoothing) regression analysis is considered for the study of
the regional sample.
Similar results are obtained from the analysis at the annual level and for the wet season, with high coefficients of
determination (R2 >0.94) for all the sub-regions, demonstrating the appropriateness of the used regression models,
and with sub-CC scaling rate (4-5%°C1). For the dry season, both the R2 and the rates (especially for T2 and T4)
are lower; moreover, the LOESS analysis highlights a decreasing scaling rate at higher dew point temperatures
Hidden local symmetry and color confinement
The hidden local symmetry is a successful model to describe the properties of
the vector mesons in QCD. We point out that if we identify this hidden gauge
theory as the magnetic picture of QCD, a linearized version of the model
simultaneously describes color confinement and chiral symmetry breaking. We
demonstrate that such a structure can be seen in the Seiberg dual picture of a
softly broken supersymmetric QCD. The model possesses exact chiral symmetry and
reduces to QCD when mass parameters are taken to be large. Working in the
regime of the small mass parameters, we show that there is a vacuum where
chiral symmetry is spontaneously broken and simultaneously the magnetic gauge
group is Higgsed. If the vacuum we find persists in the limit of large mass
parameters, one can identify the rho meson as the massive magnetic gauge boson,
that is an essential ingredient for color confinement.Comment: 20 pages, 3 figure
Non-Abelian vortex dynamics: Effective world-sheet action
The low-energy vortex effective action is constructed in a wide class of
systems in a color-flavor locked vacuum, which generalizes the results found
earlier in the context of U(N) models. It describes the weak fluctuations of
the non-Abelian orientational moduli on the vortex worldsheet. For instance,
for the minimum vortex in SO(2N) x U(1) or USp(2N) x U(1) gauge theories, the
effective action found is a two-dimensional sigma model living on the Hermitian
symmetric spaces SO(2N)/U(N) or USp(2N)/U(N), respectively. The fluctuating
moduli have the structure of that of a quantum particle state in spinor
representations of the GNO dual of the color-flavor SO(2N) or USp(2N) symmetry,
i.e. of SO(2N) or of SO(2N+1). Applied to the benchmark U(N) model our
procedure reproduces the known CP(N-1) worldsheet action; our recipe allows us
to obtain also the effective vortex action for some higher-winding vortices in
U(N) and SO(2N) theories.Comment: LaTeX, 25 pages, 0 figure
Tectonic stress and renewed uplift at Campi Flegrei caldera, southern Italy: New insights from caldera drilling
Deep drilling is a key tool for the investigation of active volcanoes in the modern Earth Sciences, as this provides the only means to obtain direct information on processes that occur at depth. Data acquired from drilling projects are fundamental to our understanding of volcano dynamics, and for mitigation of the hazards they pose for millions of people who live close to active volcanoes. We present here the first borehole measurement of the stress field in the crust of Campi Flegrei (southern Italy), a large active caldera, and one of the highest risk volcanoes worldwide. Measurements were performed to depths of ∼500 m during a pilot study for the Campi Flegrei Deep Drilling Project. These data indicate an extensional stress field, with a minimum horizontal stress of ca. 75% to 80% of the maximum horizontal stress, which is approximately equal to the vertical stress. The deviation from lithostatic conditions is consistent with a progressive increase in applied horizontal stress during episodes of unrest, since at least 1969. As the stress field is evolving with time, the outcome of renewed unrest cannot be assessed by analogy with previous episodes. Interpretations of future unrest must therefore accommodate the possibility that Campi Flegrei is approaching conditions that are more favourable to a volcanic eruption than has previously been the case. Such long-term accumulation of stress is not expected to be unique to Campi Flegrei, and so might provide a basis for improved forecasts of eruptions at large calderas elsewhere
Balanced Propofol Sedation in Patients Undergoing EUS-FNA: A Pilot Study to Assess Feasibility and Safety
Introduction and aims. Balanced propofol sedation (BPS) administered by gastroenterologists has gained popularity in endoscopic procedures. Few studies exist about the safety of this approach during endosonography with fine needle aspiration (EUS-FNA). We assessed the safety of BPS in EUS-FNA. Materials and methods. 112 consecutive patients, referred to our unit to perform EUS-FNA, from February 2008 to December 2009, were sedated with BPS. A second gastroenterologist administered the drugs and monitorized the patient. Results. All the 112 patients (62 males, mean age 58.35) completed the examination. The mean dose of midazolam and propofol was, respectively, of 2.1 mg (range 1–4 mg) and 350 mg (range 180–400). All patients received oxygen with a mean flux of 4 liter/minute (range 2–6 liters/minute). The mean recovery time after procedure was 25 minutes (range 18–45 minutes). No major complications related to sedation were registered during all procedures. The oxygen saturation of all patients never reduced to less than 85%. Blood systolic pressure during and after the procedure never reduced to less than 100 mmHg. Conclusions. In our experience BPS administered by non-anaesthesiologists provided safe and successful sedation in patients undergoing EUS-FNA
Nonabelian Faddeev-Niemi Decomposition of the SU(3) Yang-Mills Theory
Faddeev and Niemi (FN) have introduced an abelian gauge theory which
simulates dynamical abelianization in Yang-Mills theory (YM). It contains both
YM instantons and Wu-Yang monopoles and appears to be able to describe the
confining phase. Motivated by the meson degeneracy problem in dynamical
abelianization models, in this note we present a generalization of the FN
theory. We first generalize the Cho connection to dynamical symmetry breaking
pattern SU(N+1) -> U(N), and subsequently try to complete the Faddeev-Niemi
decomposition by keeping the missing degrees of freedom. While it is not
possible to write an on-shell complete FN decomposition, in the case of SU(3)
theory of physical interest we find an off-shell complete decomposition for
SU(3) -> U(2) which amounts to partial gauge fixing, generalizing naturally the
result found by Faddeev and Niemi for the abelian scenario SU(N+1) -> U(1)^N.
We discuss general topological aspects of these breakings, demonstrating for
example that the FN knot solitons never exist when the unbroken gauge symmetry
is nonabelian, and recovering the usual no-go theorems for colored dyons.Comment: Latex 30 page
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