5,462 research outputs found
Particle Identification in the ALICE Experiment
The particle identification capabilities of the ALICE experiment are unique
among the four major LHC experiments. The working principles and excellent
performance of the central barrel detectors in a high-multiplicity environment
are presented as well as two physics examples: the extraction of transverse
momentum spectra of charged pions, kaons, protons, and the observation of the
anti-4He-nucleus.Comment: Quark Matter 2011 Proceeding
Universal strangeness production and size fluctuactions in small and large systems
Strangeness production in high multiplicity events gives indications on the
transverse size fluctuactions in nucleus-nucleus (), proton-nucleus ()
and proton-proton () collisions. In particular the behavior of strange
particle hadronization in "small" () and "large" () initial
configurations of the collision can be tested for the specific particle
species, for different centralities and for large fluctuations of the
transverse size in and by using the recent ALICE data. A universality
of strange hadron production emerges by introducing a dynamical variable
proportional to the initial parton density in the transverse plane.Comment: talk at EPS-HEP conference , Venice, 201
Identified particles in pp and Pb-Pb collisions at LHC energies with the ALICE detector
The ALICE experiment has been taking data since 2009, with proton and lead
beams. In this paper, the different particle identification techniques used by
the experiment are briefly reviewed. The current results on identified particle
spectra in pp collisions at and 7 TeV, and in
Pb-Pb collisions at \snn = 2.76 \mathrm{TeV} are summarized. In particular,
the energy dependence of the spectral shapes and particle ratios in pp
collisions is discussed and the results are compared to previous experiments
and commonly used Monte Carlo models. The baryon/meson ratio is
studied in Pb-Pb collisions as a function of transverse momentum and
centrality, and it is compared to previous results. The evolution of the
particle spectra in Pb-Pb with collision centrality is compared to measurements
at lower energies and discussed in the context of thermal and hydrodynamical
models.Comment: 8 pages, 7 figures, plenary talk at Quark Matter 2011, May 23rd-28th
2011, Annecy, Franc
Detailed and large-scale cost/benefit analyses of landslide prevention vs. post-event actions
The main aim of this paper is to
test economic benefits of landslide prevention measures vs. post-event
emergency actions. To this end, detailed- and large-scale analyses were
performed in a training area located in the northeastern Italian pre-Alps
that was hit by an exceptional rainfall event occurred in November 2010. On
the detailed scale, a landslide reactivated after 2010 event was
investigated. Numerical modeling demonstrated that remedial works carried out
after the landslide – water-removal intervention such as a drainage trench
– could have improved slope stability if applied before its occurrence.
Then, a cost/benefit analysis was employed. It defined that prevention would
have been economically convenient compared to a non-preventive and passive
attitude, allowing a 30 % saving relative to total costs. On the large
scale, one of the most affected areas after 2010 event was considered. A
susceptibility analysis was performed using a simple probabilistic model,
which allowed to highlight the main landslide conditioning factors and the
most hazardous and vulnerable sectors. In particular, such low-cost analysis
demonstrated that almost 50 % of landslides occurred after 2010 event
could be foreseen and allowed to roughly quantify benefits from regional
landslide prevention. However, a large-scale approach is insufficient to carry
out a quantitative cost/benefit analysis, for which a detailed case-by-case
risk assessment is needed. The here proposed approaches could be used as a
means of preventive soil protection in not only the investigated case
study but also all those hazardous areas where preventive measures are
needed
Two- versus three-dimensional connectivity testing of first-order queries to semi-algebraic sets
This paper addresses the question whether one can determine the connectivity
of a semi-algebraic set in three dimensions by testing the connectivity of a
finite number of two-dimensional ``samples'' of the set, where these samples
are defined by first-order queries. The question is answered negatively for two
classes of first-order queries: cartesian-product-free, and positive one-pass.Comment: corrected minor confusion in Proof of Theorem
Fast Long-Distance Control of Spin Qubits by Photon Assisted Cotunneling
We investigate theoretically the long-distance coupling and spin exchange in
an array of quantum dot spin qubits in the presence of microwaves. We find that
photon assisted cotunneling is boosted at resonances between photon and
energies of virtually occupied excited states and show how to make it spin
selective. We identify configurations that enable fast switching and spin echo
sequences for efficient and non-local manipulation of spin qubits. We devise
configurations in which the near-resonantly boosted cotunneling provides
non-local coupling which, up to certain limit, does not diminish with distance
between the manipulated dots before it decays weakly with inverse distance.Comment: 17 pages (including 8 pages of Appendices), 2 figure
Mental rotation meets the motion aftereffect: the role of hV5/MT+ in visual mental imagery
A growing number of studies show that visual mental imagery recruits the same brain areas as visual perception. Although the necessity of hV5/MT+ for motion perception has been revealed by means of TMS, its relevance for motion imagery remains unclear. We induced a direction-selective adaptation in hV5/MT+ by means of an MAE while subjects performed a mental rotation task that elicits imagined motion. We concurrently measured behavioral performance and neural activity with fMRI, enabling us to directly assess the effect of a perturbation of hV5/MT+ on other cortical areas involved in the mental rotation task. The activity in hV5/MT+ increased as more mental rotation was required, and the perturbation of hV5/MT+ affected behavioral performance as well as the neural activity in this area. Moreover, several regions in the posterior parietal cortex were also affected by this perturbation. Our results show that hV5/MT+ is required for imagined visual motion and engages in an interaction with parietal cortex during this cognitive process
Electric-field dependent g-factor anisotropy in Ge-Si core-shell nanowire quantum dots
We present angle-dependent measurements of the effective g-factor g* in a
Ge-Si core-shell nanowire quantum dot. g* is found to be maximum when the
magnetic field is pointing perpendicular to both the nanowire and the electric
field induced by local gates. Alignment of the magnetic field with the electric
field reduces g* significantly. g* is almost completely quenched when the
magnetic field is aligned with the nanowire axis. These findings confirm recent
calculations, where the obtained anisotropy is attributed to a Rashba-type
spin-orbit interaction induced by heavy-hole light-hole mixing. In principle,
this facilitates manipulation of spin-orbit qubits by means of a continuous
high-frequency electric field
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