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1.
In this Letter we show numerical existence of O(4) Dirac–Born–Infeld (DBI) Textures living in (N+1) dimensional spacetime. These defects are characterized by SN→S3 mapping, generalizing the well-known Hopf fibration into πN(S3), for all N>3. The nonlinear nature of DBI kinetic term provides stability against size perturbation and thus renders the defects having natural scale. 相似文献
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We propose a network model with a fixed number of nodes and links and with a dynamic which favors links between nodes differing in connectivity. We observe a phase transition and parameter regimes with degree distributions following power laws, P(k)∼k-γ, with γ ranging from 0.2 to 0.5, small-world properties, with a network diameter following D(N)∼logN and relative high clustering, following C(N)∼1/N and C(k)∼k-α, with α close to 3. We compare our results with data from real-world protein interaction networks. 相似文献
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Searching for heavy neutral gauge bosons Z′, predicted in extensions of the Standard Model based on a U(1)′ gauge symmetry, is one of the challenging objectives of the experiments carried out at the Large Hadron Collider. In this paper, we study Z′ phenomenology at hadron colliders according to several U(1)′-based models and in the Sequential Standard Model. In particular, possible Z′ decays into supersymmetric particles are included, in addition to the Standard Model modes so far investigated. We point out the impact of the U(1)′ group on the MSSM spectrum and, for a better understanding, we consider a few benchmarks points in the parameter space. We account for the D-term contribution, due to the breaking of U(1)′, to slepton and squark masses and investigate its effect on Z′ decays into sfermions. Results on branching ratios and cross sections are presented, as a function of the MSSM and U(1)′ parameters, which are varied within suitable ranges. We pay special attention to final states with leptons and missing energy and make predictions on the number of events with sparticle production in Z′ decays, for a few values of integrated luminosity and centre-of-mass energy of the LHC. 相似文献
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The effects of dissipation on the scaling properties of nonlinear discontinuous maps are investigated by analyzing the behavior of the average squared action 〈I2〉 as a function of the n-th iteration of the map as well as the parameters K and γ , controlling nonlinearity and dissipation, respectively. We concentrate our efforts to study the case where the nonlinearity is large; i.e., K?1. In this regime and for large initial action I0?K, we prove that dissipation produces an exponential decay for the average action 〈I〉. Also, for I0≅0, we describe the behavior of 〈I2〉 using a scaling function and analytically obtain critical exponents which are used to overlap different curves of 〈I2〉 onto a universal plot. We complete our study with the analysis of the scaling properties of the deviation around the average action ω. 相似文献
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The large-n expansion is applied to the calculation of thermal critical exponents describing the critical behavior of spatially anisotropic d-dimensional systems at m -axial Lifshitz points. We derive the leading non-trivial 1/n correction for the perpendicular correlation-length exponent νL2 and hence several related thermal exponents to order O(1/n). The results are consistent with known large-n expansions for d -dimensional critical points and isotropic Lifshitz points, as well as with the second-order epsilon expansion about the upper critical dimension d?=4+m/2 for generic m∈[0,d]. Analytical results are given for the special case d=4, m=1. For uniaxial Lifshitz points in three dimensions, 1/n coefficients are calculated numerically. The estimates of critical exponents at d=3, m=1 and n=3 are discussed. 相似文献
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We study the electromagnetic wave propagation in the joint dilaton field and axion field. Dilaton field induces amplification/attenuation in the propagation while axion field induces polarization rotation. The amplification/attenuation induced by dilaton is independent of the frequency (energy) and the polarization of electromagnetic waves (photons). From observations, the agreement with and the precise calibration of the cosmic microwave background (CMB) to blackbody radiation constrains the fractional change of dilaton |Δψ|/ψ to less than about 8×10−4 since the time of the last scattering surface of the CMB. 相似文献
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Motivated by the needs of vortex methods, we describe three different exact or approximate solutions to the Poisson equation on the surface of a sphere when the forcing is a Gaussian of the three-dimensional distance, ∇2ψ=exp(-2?2(1-cos(θ))-CGauss(?). (More precisely, the forcing is a Gaussian minus the “Gauss constraint constant”, CGauss; this subtraction is necessary because ψ is bounded, for any type of forcing, only if the integral of the forcing over the sphere is zero [Y. Kimura, H. Okamoto, Vortex on a sphere, J. Phys. Soc. Jpn. 56 (1987) 4203–4206; D.G. Dritschel, Contour dynamics/surgery on the sphere, J. Comput. Phys. 79 (1988) 477–483]. The Legendre polynomial series is simple and yields the exact value of the Gauss constraint constant, but converges slowly for large ?. The analytic solution involves nothing more exotic than the exponential integral, but all four terms are singular at one or the other pole, cancelling in pairs so that ψ is everywhere nice. The method of matched asymptotic expansions yields simpler, uniformly valid approximations as series of inverse even powers of ? that converge very rapidly for the large values of ? (?>40) appropriate for geophysical vortex computations. The series converges to a nonzero O(exp(-4?2)) error everywhere except at the south pole where it diverges linearly with order instead of the usual factorial order. 相似文献
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The puzzle of apparent linear lattice artifacts in the 2d non-linear σ-model and Symanzik's solution
Lattice artifacts in the 2d O(n) non-linear σ -model are expected to be of the form O(a2), and hence it was (when first observed) disturbing that some quantities in the O(3) model with various actions show parametrically stronger cutoff dependence, apparently O(a), up to very large correlation lengths. In a previous letter Balog et al. (2009) [1] we described the solution to this puzzle. Based on the conventional framework of Symanzik's effective action, we showed that there are logarithmic corrections to the O(a2) artifacts which are especially large (ln3a) for n=3 and that such artifacts are consistent with the data. In this paper we supply the technical details of this computation. Results of Monte Carlo simulations using various lattice actions for O(3) and O(4) are also presented. 相似文献
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The grand partition functions Z(T,B) of the Ising model on L×L triangular lattices with fully periodic boundary conditions, as a function of temperature T and magnetic field B , are evaluated exactly for L<12 (using microcanonical transfer matrix) and approximately for L?12 (using Wang–Landau Monte Carlo algorithm). From Z(T,B), the distributions of the partition function zeros of the triangular-lattice Ising model in the complex temperature plane for real B≠0 are obtained and discussed for the first time. The critical points aN(x) and the thermal scaling exponents yt(x) of the triangular-lattice Ising antiferromagnet, for various values of x=e−2βB, are estimated using the partition function zeros. 相似文献
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We show that the newly measured branching ratios of vector charmonia (J/ψ, ψ′ and ψ(3770)) into γP, where P stands for light pseudoscalar mesons π0, η , and η′, can be well understood in the framework of vector meson dominance (VMD) in association with the ηc–η(η′) mixings due to the axial gluonic anomaly. These two mechanisms behave differently in J/ψ and ψ′→γP. A coherent understanding of the branching ratio patterns observed in J/ψ(ψ′)→γP can be achieved by self-consistently including those transition mechanisms at hadronic level. The branching ratios for ψ(3770)→γP are predicted to be rather small. 相似文献
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The chirally improved (CI) quark propagator in Landau gauge is calculated in two flavor lattice Quantum Chromodynamics. Its wave-function renormalization function Z(p2) and mass function M(p2) are studied. To minimize lattice artifacts, tree-level improvement of the propagator and tree-level correction of the lattice dressing functions is applied. Subsequently the CI quark propagator under Dirac operator low-mode removal is investigated. The dynamically generated mass in the infrared domain of the mass function is found to dissolve continuously as a function of the reduction level and strong suppression of Z(p2) for small momenta is observed. 相似文献
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It is argued that the dominant contribution to the interaction of quark–gluon plasma at moderate T?Tc is given by the nonperturbative vacuum field correlators. Basing on that nonperturbative equation of state of quark–gluon plasma is computed and in the lowest approximation expressed in terms of absolute values of Polyakov lines for quarks and gluons Lfund(T),Ladj(T)=(Lfund)9/4 known from lattice and analytic calculations. Phase transition at any μ is described as a transition due to vanishing of one of correlators, DE(x), which implies the change of gluonic condensate ΔG2. Resulting transition temperature Tc(μ) is calculated in terms of ΔG2 and Lfund(Tc). The phase curve Tc(μ) is in a good agreement with lattice data. In particular Tc(0)=0.27; 0.19; 0.17 GeV for nf=0,2,3 and fixed ΔG2=0.0035 GeV4. 相似文献
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We consider products of two 2-manifolds such as S2×S2, embedded in Euclidean space and show that the corresponding 4-volume preserving diffeomorphism algebra can be approximated by a tensor product SU(N)⊗SU(N) i.e. functions on a manifold are approximated by the Kronecker product of two SU(N) matrices. 相似文献