5,044 research outputs found

    Synthesis of various highly halogenated monomers and polymers

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    Halogenated polyurethane and polycarbonate are synthesized and found to be LOX compatible but dependent upon the type nitrogen bonding

    Intermittency in a catalytic random medium

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    In this paper, we study intermittency for the parabolic Anderson equation u/t=κΔu+ξu\partial u/\partial t=\kappa\Delta u+\xi u, where u:Zd×[0,)Ru:\mathbb{Z}^d\times [0,\infty)\to\mathbb{R}, κ\kappa is the diffusion constant, Δ\Delta is the discrete Laplacian and ξ:Zd×[0,)R\xi:\mathbb{Z}^d\times[0,\infty)\to\mathbb {R} is a space-time random medium. We focus on the case where ξ\xi is γ\gamma times the random medium that is obtained by running independent simple random walks with diffusion constant ρ\rho starting from a Poisson random field with intensity ν\nu. Throughout the paper, we assume that κ,γ,ρ,ν(0,)\kappa,\gamma,\rho,\nu\in (0,\infty). The solution of the equation describes the evolution of a ``reactant'' uu under the influence of a ``catalyst'' ξ\xi. We consider the annealed Lyapunov exponents, that is, the exponential growth rates of the successive moments of uu, and show that they display an interesting dependence on the dimension dd and on the parameters κ,γ,ρ,ν\kappa,\gamma,\rho,\nu, with qualitatively different intermittency behavior in d=1,2d=1,2, in d=3d=3 and in d4d\geq4. Special attention is given to the asymptotics of these Lyapunov exponents for κ0\kappa\downarrow0 and κ\kappa \to\infty.Comment: Published at http://dx.doi.org/10.1214/009117906000000467 in the Annals of Probability (http://www.imstat.org/aop/) by the Institute of Mathematical Statistics (http://www.imstat.org

    Stretched Exponential Relaxation in the Biased Random Voter Model

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    We study the relaxation properties of the voter model with i.i.d. random bias. We prove under mild condions that the disorder-averaged relaxation of this biased random voter model is faster than a stretched exponential with exponent d/(d+α)d/(d+\alpha), where 0<α20<\alpha\le 2 depends on the transition rates of the non-biased voter model. Under an additional assumption, we show that the above upper bound is optimal. The main ingredient of our proof is a result of Donsker and Varadhan (1979).Comment: 14 pages, AMS-LaTe

    Torsional rigidity for cylinders with a Brownian fracture

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    We obtain bounds for the expected loss of torsional rigidity of a cylinder ΩL=(L/2,L/2)×ΩR3\Omega_L=(-L/2,L/2) \times \Omega\subset \R^3 of length LL due to a Brownian fracture that starts at a random point in ΩL,\Omega_L, and runs until the first time it exits ΩL\Omega_L. These bounds are expressed in terms of the geometry of the cross-section ΩR2\Omega \subset \R^2. It is shown that if Ω\Omega is a disc with radius RR, then in the limit as LL \rightarrow \infty the expected loss of torsional rigidity equals cR5cR^5 for some c(0,)c\in (0,\infty). We derive bounds for cc in terms of the expected Newtonian capacity of the trace of a Brownian path that starts at the centre of a ball in R3\R^3 with radius 1,1, and runs until the first time it exits this ball.Comment: 18 page

    Intermittency on catalysts

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    The present paper provides an overview of results obtained in four recent papers by the authors. These papers address the problem of intermittency for the Parabolic Anderson Model in a \emph{time-dependent random medium}, describing the evolution of a ``reactant'' in the presence of a ``catalyst''. Three examples of catalysts are considered: (1) independent simple random walks; (2) symmetric exclusion process; (3) symmetric voter model. The focus is on the annealed Lyapunov exponents, i.e., the exponential growth rates of the successive moments of the reactant. It turns out that these exponents exhibit an interesting dependence on the dimension and on the diffusion constant.Comment: 11 pages, invited paper to appear in a Festschrift in honour of Heinrich von Weizs\"acker, on the occasion of his 60th birthday, to be published by Cambridge University Pres

    Intermittency on catalysts: three-dimensional simple symmetric exclusion

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    We continue our study of intermittency for the parabolic Anderson model u/t=κΔu+ξu\partial u/\partial t = \kappa\Delta u + \xi u in a space-time random medium ξ\xi, where κ\kappa is a positive diffusion constant, Δ\Delta is the lattice Laplacian on Zd\Z^d, d1d \geq 1, and ξ\xi is a simple symmetric exclusion process on Zd\Z^d in Bernoulli equilibrium. This model describes the evolution of a \emph{reactant} uu under the influence of a \emph{catalyst} ξ\xi. In G\"artner, den Hollander and Maillard (2007) we investigated the behavior of the annealed Lyapunov exponents, i.e., the exponential growth rates as tt\to\infty of the successive moments of the solution uu. This led to an almost complete picture of intermittency as a function of dd and κ\kappa. In the present paper we finish our study by focussing on the asymptotics of the Lyaponov exponents as κ\kappa\to\infty in the \emph{critical} dimension d=3d=3, which was left open in G\"artner, den Hollander and Maillard (2007) and which is the most challenging. We show that, interestingly, this asymptotics is characterized not only by a \emph{Green} term, as in d4d\geq 4, but also by a \emph{polaron} term. The presence of the latter implies intermittency of \emph{all} orders above a finite threshold for κ\kappa.Comment: 38 page
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