2,814 research outputs found

    Finite temperature phase transition of two-flavor QCD with an improved Wilson quark action

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    We study the phase structure of QCD at finite temperatures with two flavors of dynamical quarks on a lattice with the size Ns3Ă—Nt=163Ă—4N_s^3 \times N_t=16^3 \times 4, using a renormalization group improved gauge action and a clover improved Wilson quark action. The simulations are made along the lines of constant physics determined in terms of mPS/mVm_{\rm PS}/m_{\rm V} at zero-temperature. We show preliminary results for the spatial string tension in the high temperature phase.Comment: 7 pages, 7 figures, talk presented at Lattice 2006 (high temperature and density

    Static quark free energies at finite temperature with two flavors of improved Wilson quarks

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    Polyakov loop correlations at finite temperature in two-flavor QCD are studied in lattice simulations with the RG-improved gluon action and the clover-improved Wilson quark action. From the simulations on a 163Ă—416^3 \times 4 lattice, we extract the free energies, the effective running coupling geff(T)g_{\rm eff}(T) and the Debye screening mass mD(T)m_D(T) for various color channels of heavy quark--quark and quark--anti-quark pairs above the critical temperature. The free energies are well approximated by the screened Coulomb form with the appropriate Casimir factors. The magnitude and the temperature dependence of the Debye mass are compared to those of the next-to-leading order thermal perturbation theory and to a phenomenological formula given in terms of geff(T)g_{\rm eff}(T). Also we made a comparison between our results with the Wilson quark and those with the staggered quark previously reported.Comment: 7 pages, 9 figures, talk given at Lattice 2006 (high temperature and density

    Thermodynamics and heavy-quark free energies at finite temperature and density with two flavors of improved Wilson quarks

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    Thermodynamics of two-flavor QCD at finite temperature and density is studied on a 163×416^3 \times 4 lattice, using a renormalization group improved gauge action and the clover improved Wilson quark action. In the simulations along lines of constant mPS/mVm_{\rm PS}/m_{\rm V}, we calculate the Taylor expansion coefficients of the heavy-quark free energy with respect to the quark chemical potential (μq\mu_q) up to the second order. By comparing the expansion coefficients of the free energies between quark(QQ)and antiquark(Qˉ\bar{Q}), and between QQ and QQ, we find a characteristic difference at finite μq\mu_q due to the first order coefficient of the Taylor expansion. We also calculate the quark number and isospin susceptibilities, and find that the second order coefficient of the quark number susceptibility shows enhancement around the pseudo-critical temperature.Comment: Talk given at the XXV International Symposium on Lattice Field Theory (Lattice 2007), July 30 - August 4, 2007, Regensburg, German

    Heavy-Quark Free Energy, Debye Mass, and Spatial String Tension at Finite Temperature in Two Flavor Lattice QCD with Wilson Quark Action

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    We study Polyakov loop correlations and spatial Wilson loop at finite Temperature in two-flavor QCD simulations with the RG-improved gluon action and the clover-improved Wilson quark action on a 163Ă—4 16^3 \times 4 lattice. From the line of constant physics at mPS/mV=0.65m_{\rm PS}/m_{\rm V}=0.65 and 0.80, we extract the heavy-quark free energies, the effective running coupling geff(T)g_{\rm eff}(T) and the Debye screening mass mD(T)m_D(T) for various color channels of heavy quark--quark and quark--anti-quark pairs above the critical temperature. The free energies are well approximated by the screened Coulomb form with the appropriate Casimir factors at high temperature. The magnitude and the temperature dependence of the Debye mass are compared to those of the next-to-leading order thermal perturbation theory and to a phenomenological formula in terms of geff(T)g_{\rm eff}(T). We make a comparison between our results with the Wilson quark action and the previous results with the staggered quark action. The spatial string tension is also studied in the high temperature phase and is compared to the next-to-next-leading order prediction in an effective theory with dimensional reduction.Comment: 25 pages, 37 EPS figure

    Equation of state at finite density in two-flavor QCD with improved Wilson quarks

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    We study the equation of state in two-flavor QCD at finite temperature and density. Simulations are made with the RG-improved gluon action and the clover-improved Wilson quark action. Along the lines of constant physics for mPS/mV=0.65m_{\rm PS}/m_{\rm V} = 0.65 and 0.80, we compute the derivatives of the quark determinant with respect to the quark chemical potential ÎĽq\mu_q up to the fourth order at ÎĽq=0\mu_q=0. We adopt several improvement techniques in the evaluation. We study thermodynamic quantities and quark number susceptibilities at finite ÎĽq\mu_q using these derivatives. We find enhancement of the quark number susceptibility at finite ÎĽq\mu_q, in accordance with previous observations using staggered-type quarks. This suggests the existence of a nearby critical point.Comment: 7 pages, 16 figures, presented at the XXVI International Symposium on Lattice Field Theory (LATTICE 2008), July 14-19, 2008, Williamsburg, Virginia, US

    Steady state, relaxation and first-passage properties of a run-and-tumble particle in one-dimension

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    We investigate the motion of a run-and-tumble particle (RTP) in one dimension. We find the exact probability distribution of the particle with and without diffusion on the infinite line, as well as in a finite interval. In the infinite domain, this probability distribution approaches a Gaussian form in the long-time limit, as in the case of a regular Brownian particle. At intermediate times, this distribution exhibits unexpected multi-modal forms. In a finite domain, the probability distribution reaches a steady state form with peaks at the boundaries, in contrast to a Brownian particle. We also study the relaxation to the steady state analytically. Finally we compute the survival probability of the RTP in a semi-infinite domain. In the finite interval, we compute the exit probability and the associated exit times. We provide numerical verifications of our analytical results
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