48,938 research outputs found

    Bares 2.0 wave buoy and sustainable buoy network

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    The aim of this article is to show the operation of the Bares 2.0 wave buoy and the Bares network developed by HCTech. In the marine sector it is highly important to know the state of the sea for applications such as the construction of ports, the study of the impact of waves in coastal areas, the development and calibration of forecasting wave models, the knowledge of the state of the maritime navigation channels, etc. Some of the great difficulties that exist in order to obtain the information of ocean waves is the high cost of the buoys, installation and maintenance. The Bares network aims to cover areas of high oceanographic interest, the target is a sustainable network of buoys that facilitate the access to wave data. The features of this network are the optimized cost, high reliability and reduced maintenance.Peer Reviewe

    Stable gauged maps

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    We give an introduction to moduli stacks of gauged maps satisfying a stability conditition introduced by Mundet and Schmitt, and the associated integrals giving rise to gauged Gromov-Witten invariants. We survey various applications to cohomological and K-theoretic Gromov-Witten invariants.Comment: Survey for the 2015 AMS Summer Institute on Algebraic Geometry. Split off from the more technical paper "Properness for scaled gauged maps" [arXiv:1606.01383]. There is still substantial overlap between the two papers. This version has minor correction

    Decays of polarized top quarks to lepton, neutrino and jets at NLO QCD

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    We compute the differential and total rate of the semileptonic decay of polarized top-quarks t→ℓνℓ+bjet+jett\to \ell \nu_\ell + b{\rm jet} + {\rm jet} at next-to-leading order (NLO) in the QCD coupling with an off-shell intermediate WW boson. We present several normalized distributions, in particular those that reflect the tt-spin analyzing powers of the lepton, the b-jet and the W+W^+ boson at LO and NLO QCD.Comment: Latex, 22 page

    Unimodular Gravity and General Relativity UV divergent contributions to the scattering of massive scalar particles

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    We work out the one-loop and order κ2mϕ2\kappa^2 m_\phi^2 UV divergent contributions, coming from Unimodular Gravity and General Relativity, to the S matrix element of the scattering process ϕ+ϕ→ϕ+ϕ\phi + \phi\rightarrow \phi + \phi in a λϕ4\lambda \phi^4 theory with mass mϕm_\phi. We show that both Unimodular Gravity and General Relativity give rise to the same UV divergent contributions in Dimension Regularization. This seems to be at odds with the known result that in a multiplicative MS dimensional regularization scheme the General Relativity corrections, in the de Donder gauge, to the beta function βλ\beta_{\lambda} of the λ\lambda coupling do not vanish, whereas the Unimodular Gravity corrections, in a certain gauge, do vanish. Actually, we show that the UV divergent contributions to the 1PI Feynman diagrams which give rise to those non-vanishing corrections to βλ\beta_{\lambda} do not contribute to the UV divergent behaviour of the S matrix element of ϕ+ϕ→ϕ+ϕ\phi + \phi\rightarrow \phi + \phi and this shows that any physical consequence --such existence of asymptotic freedom due to gravitational interactions-- drawn from the value of βλ\beta_{\lambda} is not physically meaningful.Comment: 13 pages, 4 figure

    Fast-to-Alfv\'en mode conversion mediated by Hall current. II Application to the solar atmosphere

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    Coupling between fast magneto-acoustic and Alfv\'en waves can be observe in fully ionized plasmas mediated by stratification and 3D geometrical effects. In Paper I, Cally & Khomenko (2015) have shown that in a weakly ionized plasma, such as the solar photosphere and chromosphere, the Hall current introduces a new coupling mechanism. The present study extends the results from Paper I to the case of warm plasma. We report on numerical experiments where mode transformation is studied using quasi-realistic stratification in thermodynamic parameters resembling the solar atmosphere. This redresses the limitation of the cold plasma approximation assumed in Paper I, in particular allowing the complete process of coupling between fast and slow magneto-acoustic modes and subsequent coupling of the fast mode to the Alfv\'en mode through the Hall current. Our results confirm the efficacy of the mechanism proposed in Paper I for the solar case. We observe that the efficiency of the transformation is a sensitive function of the angle between the wave propagation direction and the magnetic field, and of the wave frequency. The efficiency increases when the field direction and the wave direction are aligned for increasing wave frequencies. After scaling our results to typical solar values, the maximum amplitude of the transformed Alfv\'en waves, for a frequency of 1 Hz, corresponds to an energy flux (measured above the height of peak Hall coupling) of ∼103\sim10^3 W m−2\rm W\,m^{-2}, based on an amplitude of 500 m s−1\rm m\,s^{-1} at β=1\beta=1, which is sufficient to play a major role in both quiet and active region coronal heating

    Particle collisions near a three-dimensional warped AdS black hole

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    In this paper we consider the warped AdS3_{3} black hole solution of topologically massive gravity with a negative cosmological constant, and we investigate the possibility that it acts as a particle accelerator by analyzing the energy in the center of mass (CM) frame of two colliding particles in the vicinity of its horizon, which is known as the Ba\~nados, Silk and West (BSW) process. Mainly, we show that the critical angular momentum (Lc)(L_c) of the particle decreases when the parameter that controls the stretching deformation (ν\nu) increases. Also, we show that despite the particle with LcL_c can exist for certain values of the conserved energy outside the horizon, it will never reach the event horizon; therefore, the black hole can not act as a particle accelerator with arbitrarily high CM energy on the event horizon. However, such particle could also exist inside the outer horizon being the BSW process possible on the inner horizon. On the other hand, for the extremal warped AdS3_{3} black hole, the particle with LcL_c and energy EE could exist outside the event horizon and the CM energy blows up on the event horizon if its conserved energy fulfill the condition E2>(ν2+3)l23(ν2−1)E^{2}>\frac{(\nu^{2}+3)l^{2}}{3(\nu^{2}-1)}, being the BSW process possible.Comment: 11 pages, 6 figure
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