399 research outputs found

    Nachtrag über Oxybuttersäure im diabetischen Harne

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    Strong renewal theorems and Lyapunov spectra for α\alpha-Farey and α\alpha-L\"uroth systems

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    In this paper we introduce and study the α\alpha-Farey map and its associated jump transformation, the α\alpha-L\"uroth map, for an arbitrary countable partition α\alpha of the unit interval with atoms which accumulate only at the origin. These maps represent linearised generalisations of the Farey map and the Gauss map from elementary number theory. First, a thorough analysis of some of their topological and ergodic-theoretic properties is given, including establishing exactness for both types of these maps. The first main result then is to establish weak and strong renewal laws for what we have called α\alpha-sum-level sets for the α\alpha-L\"uroth map. Similar results have previously been obtained for the Farey map and the Gauss map, by using infinite ergodic theory. In this respect, a side product of the paper is to allow for greater transparency of some of the core ideas of infinite ergodic theory. The second remaining result is to obtain a complete description of the Lyapunov spectra of the α\alpha-Farey map and the α\alpha-L\"uroth map in terms of the thermodynamical formalism. We show how to derive these spectra, and then give various examples which demonstrate the diversity of their behaviours in dependence on the chosen partition α\alpha.Comment: 29 pages, 16 figure

    Fractal analysis for sets of non-differentiability of Minkowski's question mark function

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    In this paper we study various fractal geometric aspects of the Minkowski question mark function Q.Q. We show that the unit interval can be written as the union of the three sets Λ0:={x:Q(x)=0}\Lambda_{0}:=\{x:Q'(x)=0\}, Λ:={x:Q(x)=}\Lambda_{\infty}:=\{x:Q'(x)=\infty\}, and Λ:={x:Q(x)\Lambda_{\sim}:=\{x:Q'(x) does not exist and Q(x)}.Q'(x)\not=\infty\}. The main result is that the Hausdorff dimensions of these sets are related in the following way. dimH(νF)<dimH(Λ)=dimH(Λ)=dimH(L(htop))<dimH(Λ0)=1.\dim_{H}(\nu_{F})<\dim_{H}(\Lambda_{\sim})= \dim_{H} (\Lambda_{\infty}) = \dim_{H} (\mathcal{L}(h_{\mathrm{top}}))<\dim_{H}(\Lambda_{0})=1. Here, L(htop)\mathcal{L}(h_{\mathrm{top}}) refers to the level set of the Stern-Brocot multifractal decomposition at the topological entropy htop=log2h_{\mathrm{top}}=\log2 of the Farey map F,F, and dimH(νF)\dim_{H}(\nu_{F}) denotes the Hausdorff dimension of the measure of maximal entropy of the dynamical system associated with F.F. The proofs rely partially on the multifractal formalism for Stern-Brocot intervals and give non-trivial applications of this formalism.Comment: 22 pages, 2 figure

    The masses of active neutrinos in the nuMSM from X-ray astronomy

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    In an extention of the Standard Model by three relatively light right-handed neutrinos (the nuMSM model) the role of the dark matter particle is played by the lightest sterile neutrino. We demonstrate that the observations of the extragalactic X-ray background allow to put a strong upper bound on the mass of the lightest active neutrino and predict the absolute values of the mass of the two heavier active neutrinos in the nuMSM, provided that the mass of the dark matter sterile neutrino is larger than 1.8 keV.Comment: 6 pages. revtex

    Random Sequential Addition of Hard Spheres in High Euclidean Dimensions

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    Employing numerical and theoretical methods, we investigate the structural characteristics of random sequential addition (RSA) of congruent spheres in dd-dimensional Euclidean space Rd\mathbb{R}^d in the infinite-time or saturation limit for the first six space dimensions (1d61 \le d \le 6). Specifically, we determine the saturation density, pair correlation function, cumulative coordination number and the structure factor in each =of these dimensions. We find that for 2d62 \le d \le 6, the saturation density ϕs\phi_s scales with dimension as ϕs=c1/2d+c2d/2d\phi_s= c_1/2^d+c_2 d/2^d, where c1=0.202048c_1=0.202048 and c2=0.973872c_2=0.973872. We also show analytically that the same density scaling persists in the high-dimensional limit, albeit with different coefficients. A byproduct of this high-dimensional analysis is a relatively sharp lower bound on the saturation density for any dd given by ϕs(d+2)(1S0)/2d+1\phi_s \ge (d+2)(1-S_0)/2^{d+1}, where S0[0,1]S_0\in [0,1] is the structure factor at k=0k=0 (i.e., infinite-wavelength number variance) in the high-dimensional limit. Consistent with the recent "decorrelation principle," we find that pair correlations markedly diminish as the space dimension increases up to six. Our work has implications for the possible existence of disordered classical ground states for some continuous potentials in sufficiently high dimensions.Comment: 38 pages, 9 figures, 4 table

    Neutrinos, Axions and Conformal Symmetry

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    We demonstrate that radiative breaking of conformal symmetry (and simultaneously electroweak symmetry) in the Standard Model with right-chiral neutrinos and a minimally enlarged scalar sector induces spontaneous breaking of lepton number symmetry, which naturally gives rise to an axion-like particle with some unusual features. The couplings of this `axion' to Standard Model particles, in particular photons and gluons, are entirely determined (and computable) via the conformal anomaly, and their smallness turns out to be directly related to the smallness of the masses of light neutrinos.Comment: 10 pages, 2 figures, expanded version, to be published in EPJ

    Screening of Dirac flavor structure in the seesaw and neutrino mixing

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    We consider the mechanism of screening of the Dirac flavor structure in the context of the double seesaw mechanism. As a consequence of screening, the structure of the light neutrino mass matrix, m_\nu, is determined essentially by the structure of the (Majorana) mass matrix, M_S, of new super-heavy (Planck scale) neutral fermions S. We calculate effects of the renormalization group running in order to investigate the stability of the screening mechanism with respect to radiative corrections. We find that screening is stable in the supersymmetric case, whereas in the standard model it is unstable for certain structures of M_S. The screening mechanism allows us to reconcile the (approximate) quark-lepton symmetry and the strong difference of the mixing patterns in the quark and lepton sectors. It opens new possibilities to explain a quasi-degenerate neutrino mass spectrum, special ``neutrino'' symmetries and quark-lepton complementarity. Screening can emerge from certain flavor symmetries or Grand Unification.Comment: 27 pages, 3 figures; references added, discussion of the E6 model modifie

    Quasiparticle universes in Bose-Einstein condensates

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    Recent developments in simulating fundamental quantum field theoretical effects in the kinematical context of analogue gravity are reviewed. Specifically, it is argued that a curved space-time generalization of the Unruh-Davies effect -- the Gibbons-Hawking effect in the de Sitter space-time of inflationary cosmological models -- can be implemented and verified in an ultracold gas of bosonic atoms.Comment: 23 pages, 2 figures; invited brief review for Modern Physics Letters A, as publishe

    Maxwell equations in matrix form, squaring procedure, separating the variables, and structure of electromagnetic solutions

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    The Riemann -- Silberstein -- Majorana -- Oppenheimer approach to the Maxwell electrodynamics in vacuum is investigated within the matrix formalism. The matrix form of electrodynamics includes three real 4 \times 4 matrices. Within the squaring procedure we construct four formal solutions of the Maxwell equations on the base of scalar Klein -- Fock -- Gordon solutions. The problem of separating physical electromagnetic waves in the linear space \lambda_{0}\Psi^{0}+\lambda_{1}\Psi^{1}+\lambda_{2}\Psi^{2}+ lambda_{3}\Psi^{3} is investigated, several particular cases, plane waves and cylindrical waves, are considered in detail.Comment: 26 pages 16 International Seminar NCPC, May 19-22, 2009, Minsk, Belaru
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