631 research outputs found

    Flat deformation of a spacetime admitting two Killing fields

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    It is shown that given an analytic Lorentzian metric on a 4-manifold, gg, which admits two Killing vector fields, then it exists a local deformation law η=ag+bH\eta = a g + b H, where HH is a 2-dimensional projector, such that η\eta is flat and admits the same Killing vectors. We also characterize the particular case when the projector HH coincides with the quotient metric. We apply some of our results to general stationary axisymmetric spacetime

    Comment on "Canonical formalism for Lagrangians with nonlocality of finite extent"

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    We show by some counterexamples that Lagrangian sysytems with nonlocality of finite extent are not necessarily unstable.Comment: 8 pages, 1 figure Submitted to Phys. Rev.

    Flat deformation theorem and symmetries in spacetime

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    The \emph{flat deformation theorem} states that given a semi-Riemannian analytic metric gg on a manifold, locally there always exists a two-form FF, a scalar function cc, and an arbitrarily prescribed scalar constraint depending on the point xx of the manifold and on FF and cc, say Ψ(c,F,x)=0\Psi (c, F, x)=0, such that the \emph{deformed metric} η=cgϵF2\eta = cg -\epsilon F^2 is semi-Riemannian and flat. In this paper we first show that the above result implies that every (Lorentzian analytic) metric gg may be written in the \emph{extended Kerr-Schild form}, namely ηab:=agab2bk(alb)\eta_{ab} := a g_{ab} - 2 b k_{(a} l_{b)} where η\eta is flat and ka,lak_a, l_a are two null covectors such that kala=1k_a l^a= -1; next we show how the symmetries of gg are connected to those of η\eta, more precisely; we show that if the original metric gg admits a Conformal Killing vector (including Killing vectors and homotheties), then the deformation may be carried out in a way such that the flat deformed metric η\eta `inherits' that symmetry.Comment: 30 pages, 0 figure

    Intégrer l'expérience dans la gestion de l'image de la marque de service

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    A translocation motif in relaxase TrwC specifically affects recruitment by its conjugative type IV secretion system

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    Type IV secretion system (T4SS) substrates are recruited through a translocation signal that is poorly defined for conjugative relaxases. The relaxase TrwC of plasmid R388 is translocated by its cognate conjugative T4SS, and it can also be translocated by the VirB/D4 T4SS of Bartonella henselae, causing DNA transfer to human cells. In this work, we constructed a series of TrwC variants and assayed them for DNA transfer to bacteria and human cells to compare recruitment requirements by both T4SSs. Comparison with other reported relaxase translocation signals allowed us to determine two putative translocation sequence (TS) motifs, TS1 and TS2. Mutations affecting TS1 drastically affected conjugation frequencies, while mutations affecting either motif had only a mild effect on DNA transfer rates through the VirB/D4 T4SS of B. henselae. These results indicate that a single substrate can be recruited by two different T4SSs through different signals. The C terminus affected DNA transfer rates through both T4SSs tested, but no specific sequence requirement was detected. The addition of a Bartonella intracellular delivery (BID) domain, the translocation signal for the Bartonella VirB/D4 T4SS, increased DNA transfer up to 4% of infected human cells, providing an excellent tool for DNA delivery to specific cell types. We show that the R388 coupling protein TrwB is also required for this high-efficiency TrwC-BID translocation. Other elements apart from the coupling protein may also be involved in substrate recognition by T4SSs

    On the degrees of freedom of a semi-Riemannian metric

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    A semi-Riemannian metric in a n-manifold has n(n-1)/2 degrees of freedom, i.e. as many as the number of components of a differential 2-form. We prove that any semi-Riemannian metric can be obtained as a deformation of a constant curvature metric, this deformation being parametrized by a 2-for

    Arnowitt-Deser-Misner representation and Hamiltonian analysis of covariant renormalizable gravity

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    We study the recently proposed Covariant Renormalizable Gravity (CRG), which aims to provide a generally covariant ultraviolet completion of general relativity. We obtain a space-time decomposed form --- an Arnowitt-Deser-Misner (ADM) representation --- of the CRG action. The action is found to contain time derivatives of the gravitational fields up to fourth order. Some ways to reduce the order of these time derivatives are considered. The resulting action is analyzed using the Hamiltonian formalism, which was originally adapted for constrained theories by Dirac. It is shown that the theory has a consistent set of constraints. It is, however, found that the theory exhibits four propagating physical degrees of freedom. This is one degree of freedom more than in Ho\v{r}ava-Lifshitz (HL) gravity and two more propagating modes than in general relativity. One extra physical degree of freedom has its origin in the higher order nature of the CRG action. The other extra propagating mode is a consequence of a projectability condition similarly as in HL gravity. Some additional gauge symmetry may need to be introduced in order to get rid of the extra gravitational degrees of freedom.Comment: 21 pages, LaTeX. A correction inserted to Hamiltonian formalism in Sec.

    Stochastic to deterministic crossover of fractal dimension for a Langevin equation

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    Using algorithms of Higuchi and of Grassberger and Procaccia, we study numerically how fractal dimensions cross over from finite-dimensional Brownian noise at short time scales to finite values of deterministic chaos at longer time scales for data generated from a Langevin equation that has a strange attractor in the limit of zero noise. Our results suggest that the crossover occurs at such short time scales that there is little chance of finite-dimensional Brownian noise being incorrectly identified as deterministic chaos.Comment: 12 pages including 3 figures, RevTex and epsf. To appear Phys. Rev. E, April, 199

    Advanced radiation measurement techniques in diagnostic radiology and molecular imaging.

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    This paper reports some technological advances recently achieved in the fields of micro-CT and small animal PET instrumentation. It highlights a balance between image-quality improvement and dose reduction. Most of the recent accomplishments in these fields are due to the use of novel imaging sensors such as CMOS-based X-ray detectors and silicon photomultipliers (SiPM). Some of the research projects carried out at the University of Pisa for the development of such advanced radiation imaging technology are also described

    A bacterial-based algorithm to simulate complex adaptive systems

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    Following a bacterial-based modeling approach, we want to model and analyze the impact of both decentralization and heterogeneity on group behavior and collective learning. Inspired by bacterial conjugation, we have defined an artificial society in which agents' strategies adapt to changes in resources location, allowing migration and survival in a dynamic sugarscape-like scenario. To study the impact of these variables we have simulated a scenario in which resources are limited and localized. We also have defined three constraints in genetic information processing (inhibition of plasmid conjugation, inhibition of plasmid reproduction and inhibition of plasmid mutation). Our results affirmed the hypothesis that efficiency of group adaptation to dynamic environments is better when societies are varied and distributed than when they are homogeneous and centralized
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