3,958 research outputs found

    Uso de coletores com substrato artificial para monitoramento biológico de qualidade de água.

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    bitstream/CNPMA/7463/1/comunicado_39.pd

    Connectivity-dependent properties of diluted sytems in a transfer-matrix description

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    We introduce a new approach to connectivity-dependent properties of diluted systems, which is based on the transfer-matrix formulation of the percolation problem. It simultaneously incorporates the connective properties reflected in non-zero matrix elements and allows one to use standard random-matrix multiplication techniques. Thus it is possible to investigate physical processes on the percolation structure with the high efficiency and precision characteristic of transfer-matrix methods, while avoiding disconnections. The method is illustrated for two-dimensional site percolation by calculating (i) the critical correlation length along the strip, and the finite-size longitudinal DC conductivity: (ii) at the percolation threshold, and (iii) very near the pure-system limit.Comment: 4 pages, no figures, RevTeX, Phys. Rev. E Rapid Communications (to be published

    Quantum Fields with Noncommutative Target Spaces

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    Quantum field theories (QFT's) on noncommutative spacetimes are currently under intensive study. Usually such theories have world sheet noncommutativity. In the present work, instead, we study QFT's with commutative world sheet and noncommutative target space. Such noncommutativity can be interpreted in terms of twisted statistics and is related to earlier work of Oeckl [1], and others [2,3,4,5,6,7,8]. The twisted spectra of their free Hamiltonians has been found earlier by Carmona et al [9,10]. We review their derivation and then compute the partition function of one such typical theory. It leads to a deformed black body spectrum, which is analysed in detail. The difference between the usual and the deformed black body spectrum appears in the region of high frequencies. Therefore we expect that the deformed black body radiation may potentially be used to compute a GZK cut-off which will depend on the noncommutative parameter θ\theta.Comment: 20 pages, 5 figures; Abstract changed. Changes and corrections in the text. References adde

    Boas práticas e sistema APPCC na fase de pós-colheita de milho.

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    bitstream/CNPMS-2010/22381/1/Circ-122.pd

    On locations and properties of the multicritical point of Gaussian and +/-J Ising spin glasses

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    We use transfer-matrix and finite-size scaling methods to investigate the location and properties of the multicritical point of two-dimensional Ising spin glasses on square, triangular and honeycomb lattices, with both binary and Gaussian disorder distributions. For square and triangular lattices with binary disorder, the estimated position of the multicritical point is in numerical agreement with recent conjectures regarding its exact location. For the remaining four cases, our results indicate disagreement with the respective versions of the conjecture, though by very small amounts, never exceeding 0.2%. Our results for: (i) the correlation-length exponent ν\nu governing the ferro-paramagnetic transition; (ii) the critical domain-wall energy amplitude η\eta; (iii) the conformal anomaly cc; (iv) the finite-size susceptibility exponent γ/ν\gamma/\nu; and (v) the set of multifractal exponents {ηk}\{\eta_k \} associated to the moments of the probability distribution of spin-spin correlation functions at the multicritical point, are consistent with universality as regards lattice structure and disorder distribution, and in good agreement with existing estimates.Comment: RevTeX 4, 9 pages, 2 .eps figure

    Kosterlitz-Thouless transition in three-state mixed Potts ferro-antiferromagnets

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    We study three-state Potts spins on a square lattice, in which all bonds are ferromagnetic along one of the lattice directions, and antiferromagnetic along the other. Numerical transfer-matrix are used, on infinite strips of width LL sites, 4L144 \leq L \leq 14. Based on the analysis of the ratio of scaled mass gaps (inverse correlation lengths) and scaled domain-wall free energies, we provide strong evidence that a critical (Kosterlitz-Thouless) phase is present, whose upper limit is, in our best estimate, Tc=0.29±0.01T_c=0.29 \pm 0.01. From analysis of the (extremely anisotropic) nature of excitations below TcT_c, we argue that the critical phase extends all the way down to T=0. While domain walls parallel to the ferromagnetic direction are soft for the whole extent of the critical phase, those along the antiferromagnetic direction seem to undergo a softening transition at a finite temperature. Assuming a bulk correlation length varying, for T>TcT>T_c, as ξ(T)=aξexp[bξ(TTc)σ]\xi (T) =a_\xi \exp [ b_\xi (T-T_c)^{-\sigma}], σ1/2\sigma \simeq 1/2, we attempt finite-size scaling plots of our finite-width correlation lengths. Our best results are for Tc=0.50±0.01T_c=0.50 \pm 0.01. We propose a scenario in which such inconsistency is attributed to the extreme narrowness of the critical region.Comment: 11 pages, 6 .eps figures, LaTeX with IoP macros, to be published in J Phys

    Surface crossover exponent for branched polymers in two dimensions

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    Transfer-matrix methods on finite-width strips with free boundary conditions are applied to lattice site animals, which provide a model for randomly branched polymers in a good solvent. By assigning a distinct fugacity to sites along the strip edges, critical properties at the special (adsorption) and ordinary transitions are assessed. The crossover exponent at the adsorption point is estimated as ϕ=0.505±0.015\phi = 0.505 \pm 0.015, consistent with recent predictions that ϕ=1/2\phi = 1/2 exactly for all space dimensionalities.Comment: 10 pages, LaTeX with Institute of Physics macros, to appear in Journal of Physics

    Noncommutative field gas driven inflation

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    We investigate early time inflationary scenarios in an Universe filled with a dilute noncommutative bosonic gas at high temperature. A noncommutative bosonic gas is a gas composed of bosonic scalar field with noncommutative field space on a commutative spacetime. Such noncommutative field theories was recently introduced as a generalization of quantum mechanics on a noncommutative spacetime. As key features of these theories are Lorentz invariance violation and CPT violation. In the present study we use a noncommutative bosonic field theory that besides the noncommutative parameter θ\theta shows up a further parameter σ\sigma. This parameter σ\sigma controls the range of the noncommutativity and acts as a regulator for the theory. Both parameters play a key role in the modified dispersion relations of the noncommutative bosonic field, leading to possible striking consequences for phenomenology. In this work we obtain an equation of state p=ω(σ,θ;β)ρp=\omega(\sigma,\theta;\beta)\rho for the noncommutative bosonic gas relating pressure pp and energy density ρ\rho, in the limit of high temperature. We analyse possible behaviours for this gas parameters σ\sigma, θ\theta and β\beta, so that 1ω<1/3-1\leq\omega<-1/3, which is the region where the Universe enters an accelerated phase.Comment: Reference added. Version to appear in Journal of Cosmology and Astroparticle Physics - JCA
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