223 research outputs found

    A new way to deal with fermions in Monte Carlo simulations

    Get PDF
    An exact, nonlocal, finite step-size algorithm for Monte Carlo simulation of theories with dynamical fermions is proposed. The algorithm is based on obtaining the new configuration U' from the old one U by solving the equation M(U)η=ωM(U)η M(U') \eta = \omega M(U) \eta, where MM is fermionic operator, η\eta is random Gaussian vector, and ω\omega is random real number close to unity. This algorithm can be used for the acceleration of current simulations in theories with Grassmann variables. A first test was done for SU(3) QCD with purely fermionic term in the action.Comment: 8 pages, latex, one section added, references correcte

    A test of a new simulation algorithm for dynamical quarks

    Get PDF
    Some results of test runs on a 63×126^3\times 12 lattice with Wilson quarks and gauge group SU(2) for a previously proposed fermion algorithm by A. Slavnov are presented.Comment: 10 pages, 3 figure

    Higher covariant derivative regularization revisited

    Get PDF
    The method of higher covariant derivative regularization of gauge theories is reviewed. The objections raised in the literature last years are discussed and the consistency of the method is proven. New approach to regularization of overlapping divergencies is developped.Comment: 14 pages, latex, 1 figur

    A practical gauge invariant regularization of the SO(10) grand unified model

    Get PDF
    It is shown that a simple modification of the dimensional regularization allows to compute in a consistent and gauge invariant way any diagram with less than four loops in the SO(10) unified model. The method applies also to the Standard Model generated by the symmetry breaking SO(10)SU(3)×SU(2)×U(1)SO(10) \to SU(3)\times SU(2)\times U(1). A gauge invariant regularization for arbitrary diagram is also described.Comment: 10 pages, uses linedraw.st

    Noisy Monte Carlo Algorithm

    Get PDF
    We present an exact Monte Carlo algorithm designed to sample theories where the energy is a sum of many couplings of decreasing strength. The algorithm avoids the computation of almost all non-leading terms. Its use is illustrated by simulating SU(2) lattice gauge theory with a 5-loop improved action. A new approach for dynamical fermion simulations is proposed.We present an exact Monte Carlo algorithm designed to sample theories where the energy is a sum of many couplings of decreasing strength. The algorithm avoids the computation of almost all non-leading terms. Its use is illustrated by simulating SU(2) lattice gauge theory with a 5-loop improved action. A new approach for dynamical fermion simulations is proposed

    Determinant Calculations Using Random Walk Worldline Loops

    Get PDF
    We use statistical ensembles of worldline loops generated by random walk on hypercubic lattices to calculate matter determinants in background Yang-Mills fields.Comment: 3 pages, 3 ps figures, Lattice2002 (algor
    corecore