1,607 research outputs found

    The 2nd order renormalization group flow for non-linear sigma models in 2 dimensions

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    We show that for two dimensional manifolds M with negative Euler characteristic there exists subsets of the space of smooth Riemannian metrics which are invariant and either parabolic or backwards-parabolic for the 2nd order RG flow. We also show that solutions exists globally on these sets. Finally, we establish the existence of an eternal solution that has both a UV and IR limit, and passes through regions where the flow is parabolic and backwards-parabolic

    Dynamical heat channels

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    We consider heat conduction in a 1D dynamical channel. The channel consists of a group of noninteracting particles, which move between two heat baths according to some dynamical process. We show that the essential thermodynamic properties of the heat channel can be evaluated from the diffusion properties of the underlying particles. Emphasis is put on the conduction under anomalous diffusion conditions. \\{\bf PACS number}: 05.40.+j, 05.45.ac, 05.60.cdComment: 4 figure

    To the modification of methods of nuclear chronometry in astrophysics and geophysics

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    In practically all known till now methods of nuclear chronometry there were usually taken into account the life-times of only fundamental states of α\alpha-radioactive nuclei. But in the processes of nuclear synthesis in stars and under the influence of the constant cosmic radiation on surfaces of planets the excitations of the α\alpha-radioactive nuclei are going on. Between them there are the states with the excited α\alpha-particles inside the parent nuclei and so with much smaller life-times. And inside the large masses of stellar, terrestrial and meteoric substances the transitions between different internal conditions of radioactive nuclei are accompanied by infinite chains of the γ\gamma-radiations with the subsequent γ\gamma-absorptions, the further γ\gamma-radiations etc. For the description of the α\alpha-decay evolution with considering of such excited states and multiple γ\gamma-radiations and γ\gamma-absorptions inside stars and under the influence of the cosmic radiation on the earth surface we present the quantum-mechanical approach, which is based on the generalized Krylov-Fock theorem. Some simple estimations are also presented. They bring to the conclusion that the usual (non-corrected) "nuclear clocks" do really indicate not to realistic values but to the \emph{upper limits} of the durations of the α\alpha-decay stellar and planet processes.Comment: 6 pages, Standard LaTeX v.2

    Non-affine geometrization can lead to nonphysical instabilities

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    Geometrization of dynamics consists of representing trajectories by geodesics on a configuration space with a suitably defined metric. Previously, efforts were made to show that the analysis of dynamical stability can also be carried out within geometrical frameworks, by measuring the broadening rate of a bundle of geodesics. Two known formalisms are via Jacobi and Eisenhart metrics. We find that this geometrical analysis measures the actual stability when the length of any geodesic is proportional to the corresponding time interval. We prove that the Jacobi metric is not always an appropriate parametrization by showing that it predicts chaotic behavior for a system of harmonic oscillators. Furthermore, we show, by explicit calculation, that the correspondence between dynamical- and geometrical-spread is ill-defined for the Jacobi metric. We find that the Eisenhart dynamics corresponds to the actual tangent dynamics and is therefore an appropriate geometrization scheme.Comment: Featured on the Cover of the Journal. 9 pages, 6 figures: http://iopscience.iop.org/1751-8121/48/7/07510

    No classical limit of quantum decay for broad states

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    Though the classical treatment of spontaneous decay leads to an exponential decay law, it is well known that this is an approximation of the quantum mechanical result which is a non-exponential at very small and large times for narrow states. The non exponential nature at large times is however hard to establish from experiments. A method to recover the time evolution of unstable states from a parametrization of the amplitude fitted to data is presented. We apply the method to a realistic example of a very broad state, the sigma meson and reveal that an exponential decay is not a valid approximation at any time for this state. This example derived from experiment, shows the unique nature of broad resonances

    Towards a feasible implementation of quantum neural networks using quantum dots

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    We propose an implementation of quantum neural networks using an array of quantum dots with dipole-dipole interactions. We demonstrate that this implementation is both feasible and versatile by studying it within the framework of GaAs based quantum dot qubits coupled to a reservoir of acoustic phonons. Using numerically exact Feynman integral calculations, we have found that the quantum coherence in our neural networks survive for over a hundred ps even at liquid nitrogen temperatures (77 K), which is three orders of magnitude higher than current implementations which are based on SQUID-based systems operating at temperatures in the mK range.Comment: revtex, 5 pages, 2 eps figure

    Chaos edges of zz-logistic maps: Connection between the relaxation and sensitivity entropic indices

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    Chaos thresholds of the zz-logistic maps xt+1=1axtzx_{t+1}=1-a|x_t|^z (z>1;t=0,1,2,...)(z>1; t=0,1,2,...) are numerically analysed at accumulation points of cycles 2, 3 and 5. We verify that the nonextensive qq-generalization of a Pesin-like identity is preserved through averaging over the entire phase space. More precisely, we computationally verify limt<Sqsenav>(t)/t=limt(t)/tλqsenavav\lim_{t \to\infty}< S_{q_{sen}^{av}} >(t)/t= \lim_{t \to\infty}(t)/t \equiv \lambda_{q_{sen}^{av}}^{av}, where the entropy Sq(1ipiq)/(q1)S_{q} \equiv (1- \sum_i p_i^q)/ (q-1) (S1=ipilnpiS_1=-\sum_ip_i \ln p_i), the sensitivity to the initial conditions ξlimΔx(0)0Δx(t)/Δx(0)\xi \equiv \lim_{\Delta x(0) \to 0} \Delta x(t)/\Delta x(0), and lnqx(x1q1)/(1q)\ln_q x \equiv (x^{1-q}-1)/ (1-q) (ln1x=lnx\ln_1 x=\ln x). The entropic index qsenav0q_{sen}^{av}0 depend on both zz and the cycle. We also study the relaxation that occurs if we start with an ensemble of initial conditions homogeneously occupying the entire phase space. The associated Lebesgue measure asymptotically decreases as 1/t1/(qrel1)1/t^{1/(q_{rel}-1)} (qrel>1q_{rel}>1). These results led to (i) the first illustration of the connection (conjectured by one of us) between sensitivity and relaxation entropic indices, namely qrel1A(1qsenav)αq_{rel}-1 \simeq A (1-q_{sen}^{av})^\alpha, where the positive numbers (A,α)(A,\alpha) depend on the cycle; (ii) an unexpected and new scaling, namely qsenav(cyclen)=2.5qsenav(cycle2)+ϵq_{sen}^{av}(cycle n)=2.5 q_{sen}^{av}(cycle 2)+ \epsilon (ϵ=0.03\epsilon=-0.03 for n=3n=3, and ϵ=0.03\epsilon = 0.03 for n=5n=5).Comment: 5 pages, 5 figure

    Physical applications of second-order linear differential equations that admit polynomial solutions

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    Conditions are given for the second-order linear differential equation P3 y" + P2 y'- P1 y = 0 to have polynomial solutions, where Pn is a polynomial of degree n. Several application of these results to Schroedinger's equation are discussed. Conditions under which the confluent, biconfluent, and the general Heun equation yield polynomial solutions are explicitly given. Some new classes of exactly solvable differential equation are also discussed. The results of this work are expressed in such way as to allow direct use, without preliminary analysis.Comment: 13 pages, no figure

    Smoluchowski-Kramers approximation in the case of variable friction

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    We consider the small mass asymptotics (Smoluchowski-Kramers approximation) for the Langevin equation with a variable friction coefficient. The limit of the solution in the classical sense does not exist in this case. We study a modification of the Smoluchowski-Kramers approximation. Some applications of the Smoluchowski-Kramers approximation to problems with fast oscillating or discontinuous coefficients are considered.Comment: already publishe

    Thermal Raman study of Li4Ti5O12 and discussion about the number of its characteristic bands

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    Lithium battery industry is booming, and this fast growth should be supported by developing industry friendly tools to control the quality of positive and negative electrode materials. Raman spectroscopy was shown to be a cost effective and sensitive instrument to study defects and heterogeneities in lithium titanate, popular negative electrode material for high power applications, but there are still some points to be clarified. This work presents a detailed thermal Raman study for lithium titanate and discusses the difference of the number of predicted and experimentally observed Raman-active bands. The low temperature study and the analysis of thermal shifts of bands positions during heating let us to conclude about advantages of the proposed approach with surplus bands and recommend using shifts of major band to estimate the sample heating
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