8,266 research outputs found

    Gluon saturation and the Froissart bound: a simple approach

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    At very high energies we expect that the hadronic cross sections satisfy the Froissart bound, which is a well-established property of the strong interactions. In this energy regime we also expect the formation of the Color Glass Condensate, characterized by gluon saturation and a typical momentum scale: the saturation scale QsQ_s. In this paper we show that if a saturation window exists between the nonperturbative and perturbative regimes of Quantum Chromodynamics (QCD), the total cross sections satisfy the Froissart bound. Furthermore, we show that our approach allows us to describe the high energy experimental data on pp/ppˉpp/p\bar{p} total cross sections.Comment: 6 pages, 5 figures. Includes additional figures, discussion and reference

    Constraints on the duality relation from ACT cluster data

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    The cosmic distance-duality relation (CDDR), dL(z)(1+z)2/dA(z)=ηd_L(z) (1 + z)^{2}/d_{A}(z) = \eta, where η=1\eta = 1 and dL(z)d_L(z) and dA(z)d_A(z) are, respectively, the luminosity and the angular diameter distances, holds as long as the number of photons is conserved and gravity is described by a metric theory. Testing such hypotheses is, therefore, an important task for both cosmology and fundamental physics. In this paper we use 91 measurements of the gas mass fraction of galaxy clusters recently reported by the Atacama Cosmology Telescope (ACT) survey along with type Ia supernovae observations of the Union2.1 compilation to probe a possible deviation from the value η=1\eta = 1. Although in agreement with the standard hyphothesis, we find that this combination of data tends to favor negative values of η\eta which might be associated with some physical processes increasing the number of photons and modifying the above relation to dL<(1+z)2dAd_L < (1+z)^2d_A.Comment: 4 pages, 2 figures, 2 table

    The 1755 earthquake in the Algarve (South of Portugal): what would happen nowadays?

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    The 1755 Lisbon earthquake, which reached a magnitude of 8.5, remains the most powerful and destructive to hit Europe so far. Within minutes, many lives were lost, populations displaced, livelihoods, homes and infrastructures were destroyed. Although frequently associated to the city of Lisbon, one of the most important European cities at the time, this earthquake caused similar damage and casualties, if not greater, in the southwest of the Algarve, where the seismic intensity was estimated at IX-X Mercalli Intensity Scale. Some time later a tsunami increased the number of victims and the amount of damage. In some locations the tsunami caused greater destruction than the earthquake itself. The tsunami hit both coasts of the North Atlantic; however, the more destructive damage occurred in the Portuguese coast, south from Lisbon, in the Gulf of Cadiz and in the Moroccan coast. The downtown of Lisbon was flooded by waves that reached a height of 6 m. The water flooded an area with an extension of around 250 m from the coast. In the Southwest part of Algarve the waves reached a height between 10 and 15 m and the flooded area was much larger. Through the analysis of recent research works on the assessment of the 1755 tsunami parameters and the interpretation of the more reliable historical documents, it is our intention to analyse the destructive power of the tsunami in the Algarve and delimit the flooded area. Using simple techniques of simulation it is our intention to assess the impacts nowadays of the occurrence of a tsunami similar to the one that hit the Algarve in 1755, which would probably affect a greater number of people, buildings and infrastructures. This assessment is an important instrument not only in terms of disaster preparedness but also for the integration of risk mitigation measures in land use planning

    The anisotropic XY model on the inhomogeneous periodic chain

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    The static and dynamic properties of the anisotropic XY-model (s=1/2)(s=1/2) on the inhomogeneous periodic chain, composed of NN cells with nn different exchange interactions and magnetic moments, in a transverse field h,h, are determined exactly at arbitrary temperatures. The properties are obtained by introducing the Jordan-Wigner fermionization and by reducing the problem to a diagonalization of a finite matrix of nthnth order. The quantum transitions are determined exactly by analyzing, as a function of the field, the induced magnetization 1/n\sum_{m=1}^{n}\mu_{m}\left (jj denotes the cell, mm the site within the cell, μm\mu_{m} the magnetic moment at site mm within the cell) and the spontaneous magnetization 1/n∑m=1n<Sj,mx,>1/n\sum_{m=1}^{n}\left< S_{j,m}^{x},\right> which is obtained from the correlations <Sj,mxSj+r,mx>\left< S_{j,m}^{x}S_{j+r,m}^{x}\right> for large spin separations. These results, which are obtained for infinite chains, correspond to an extension of the ones obtained by Tong and Zhong(\textit{Physica B} \textbf{304,}91 (2001)). The dynamic correlations, <Sj,mz(t)Sj′,m′z(0)>\left< S_{j,m}^{z}(t)S_{j^{\prime},m^{\prime}}^{z}(0)\right>, and the dynamic susceptibility, χqzz(ω),\chi_{q}^{zz}(\omega), are also obtained at arbitrary temperatures. Explicit results are presented in the limit T=0, where the critical behaviour occurs, for the static susceptibility χqzz(0)\chi_{q}^{zz}(0) as a function of the transverse field hh, and for the frequency dependency of dynamic susceptibility χqzz(ω)\chi_{q}^{zz}(\omega).Comment: 33 pages, 13 figures, 01 table. Revised version (minor corrections) accepted for publiction in Phys. Rev.

    G\"{o}del-type solutions in hybrid metric-Palatini gravity

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    In this paper, the hybrid metric-Palatini gravity is an approach to modified gravity in which is added to the usual Einstein-Hilbert action a supplementary term containing a Palatini-type correction of the form f(R,T)f({\cal R},T). Here, R{\cal R} is the Palatini curvature scalar, which is constructed from an independent connection and TT is the trace of the energy-momentum tensor. This theory describes a non-minimal coupling between matter and geometry. The modified Einstein field equations in this hybrid metric-Palatini approach are obtained. Then, it is investigated whether this modified theory of gravity and its field equations allow G\"{o}del-type solutions, which essentially lead to violation of causality. Considering physically well-motivated matter sources, causal and non-causal solutions are explored.Comment: 14 pages, accepted for publication in EP
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