7,840 research outputs found

    Exploring universal patterns in human home-work commuting from mobile phone data

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    Home-work commuting has always attracted significant research attention because of its impact on human mobility. One of the key assumptions in this domain of study is the universal uniformity of commute times. However, a true comparison of commute patterns has often been hindered by the intrinsic differences in data collection methods, which make observation from different countries potentially biased and unreliable. In the present work, we approach this problem through the use of mobile phone call detail records (CDRs), which offers a consistent method for investigating mobility patterns in wholly different parts of the world. We apply our analysis to a broad range of datasets, at both the country and city scale. Additionally, we compare these results with those obtained from vehicle GPS traces in Milan. While different regions have some unique commute time characteristics, we show that the home-work time distributions and average values within a single region are indeed largely independent of commute distance or country (Portugal, Ivory Coast, and Boston)--despite substantial spatial and infrastructural differences. Furthermore, a comparative analysis demonstrates that such distance-independence holds true only if we consider multimodal commute behaviors--as consistent with previous studies. In car-only (Milan GPS traces) and car-heavy (Saudi Arabia) commute datasets, we see that commute time is indeed influenced by commute distance

    Freeze-out parameters: lattice meets experiment

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    We present our results for ratios of higher order fluctuations of electric charge as functions of the temperature. These results are obtained in a system of 2+1 quark flavors at physical quark masses and continuum extrapolated. We compare them to preliminary data on higher order moments of the net electric charge distribution from the STAR collaboration. This allows us to determine the freeze-out temperature and chemical potential from first principles. We also show continuum-extrapolated results for ratios of higher order fluctuations of baryon number. These will allow to test the consistency of the approach, by comparing them to the corresponding experimental data (once they become available) and thus extracting the freeze-out parameters in an independent way.Comment: 5 pages, 7 figures, revte

    Quark number susceptibilities: lattice QCD versus PNJL model

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    Quark number susceptibilities at finite quark chemical potential are investigated in the framework of the Polyakov-loop-extended Nambu Jona-Lasinio (PNJL) model. A detailed comparison is performed between the available lattice data, extrapolated using a Taylor expansion around vanishing chemical potential, and PNJL results consistently obtained from a Taylor series truncated at the same order. The validity of the Taylor expansion is then examined through a comparison between the full and truncated PNJL model calculations.Comment: 8 pages, 2 figure

    Freeze-out parameters from electric charge and baryon number fluctuations: is there consistency?

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    Recent results for moments of multiplicity distributions of net-protons and net-electric charge from the STAR collaboration are compared to lattice QCD results for higher order fluctuations of baryon number and electric charge by the Wuppertal-Budapest collaboration, with the purpose of extracting the freeze-out temperature and chemical potential. All lattice simulations are performed for a system of 2+1 dynamical quark flavors, at the physical mass for light and strange quarks; all results are continuum extrapolated. We show that it is possible to extract an upper value for the freeze-out temperature, as well as precise baryo-chemical potential values corresponding to the four highest collision energies of the experimental beam energy scan. Consistency between the freeze-out parameters obtained from baryon number and electric charge fluctuations is found. The freeze-out chemical potentials are now in agreement with the statistical hadronization model.Comment: 5 pages, 4 figures, references added, discussion added to the introduction, results unchange

    The problem of repulsive quark interactions - Lattice versus mean field models

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    We calculate the 2nd and 4th order quark number susceptibilities at zero baryochemical potential, using a PNJL approach and an approach which includes, in a single model, quark and hadronic degrees of freedom. We observe that the susceptibilities are very sensitive to possible quark-quark vector interactions. Compared to lattice data our results suggest that above TcT_c any mean field type of repulsive vector interaction can be excluded from model calculations. Below TcT_c our results show only very weak sensitivity on the strength of the quark and hadronic vector interaction. The best description of lattice data around TcT_c is obtained for a case of coexistence of hadronic and quark degrees of freedom.Comment: 5 pages, 4 figure, version accepted by PL

    The QCD phase diagram from analytic continuation

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    We present the crossover line between the quark gluon plasma and the hadron gas phases for small real chemical potentials. First we determine the effect of imaginary values of the chemical potential on the transition temperature using lattice QCD simulations. Then we use various formulas to perform an analytic continuation to real values of the baryo-chemical potential. Our data set maintains strangeness neutrality to match the conditions of heavy ion physics. The systematic errors are under control up to μB≈300\mu_B\approx 300 MeV. For the curvature of the transition line we find that there is an approximate agreement between values from three different observables: the chiral susceptibility, chiral condensate and strange quark susceptibility. The continuum extrapolation is based on Nt=N_t= 10, 12 and 16 lattices. By combining the analysis for these three observables we find, for the curvature, the value κ=0.0149±0.0021\kappa = 0.0149 \pm 0.0021.Comment: 14 pages, 4 figures, revised versio

    Water-based Public Transport Accessibility. A Case Study in the Internal Waters of Northern Italy

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    Accessibility to public transport systems is a key factor for the social inclusion and quality of life of people with disabilities. This paper presents an analysis of the accessibility of the water public transport service run by Navigazione Laghi on lakes Maggiore, Como and Garda in Northern Italy. The study is focused on ‘water buses’, namely small ferries operating on short, scheduled routes, with one or two decks, that do not transport vehicles and that are not equipped with bed cabins. In particular, as a case study, this paper examines a ferry of the series Airone, 24 m passenger-only units built in 2008‒2011. These units are relevant because they represent about 10% of the whole fleet of Navigazione Laghi

    The QCD equation of state at finite density from analytical continuation

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    We determine the equation of state of QCD at finite chemical potential, to order (μB/T)6(\mu_B/T)^6, for a system of 2+1 quark flavors. The simulations are performed at the physical mass for the light and strange quarks on several lattice spacings; the results are continuum extrapolated using lattices of up to Nt=16N_t=16 temporal resolution. The QCD pressure and interaction measure are calculated along the isentropic trajectories in the (T, μB)(T,~\mu_B) plane corresponding to the RHIC Beam Energy Scan collision energies. Their behavior is determined through analytic continuation from imaginary chemical potentials of the baryonic density. We also determine the Taylor expansion coefficients around μB=0\mu_B=0 from the simulations at imaginary chemical potentials. Strangeness neutrality and charge conservation are imposed, to match the experimental conditions.Comment: 5 pages, 4 figure
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