652 research outputs found

    Active Learning for Active Minds: A Conversation with Learning Leaders

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    17 USC 105 interim-entered record; under review.The article of record as published may be found at https://cimsec.org/active-learning-for-active-minds-a-conversation-with-learning-leaders/U.S. Government affiliation is unstated in article text

    Coexistence of charge density wave and spin-Peierls orders in quarter-filled quasi-one dimensional correlated electron systems

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    Charge and spin-Peierls instabilities in quarter-filled (n=1/2) compounds consisting of coupled ladders and/or zig-zag chains are investigated. Hubbard and t-J models including local Holstein and/or Peierls couplings to the lattice are studied by numerical techniques. Next nearest neighbor hopping and magnetic exchange, and short-range Coulomb interactions are also considered. We show that, generically, these systems undergo instabilities towards the formation of Charge Density Waves, Bond Order Waves and (generalized) spin-Peierls modulated structures. Moderate electron-electron and electron-lattice couplings can lead to a coexistence of these three types of orders. In the ladder, a zig-zag pattern is stabilized by the Holstein coupling and the nearest-neighbor Coulomb repulsion. In the case of an isolated chain, bond-centered and site-centered 2k_F and 4k_F modulations are induced by the local Holstein coupling. In addition, we show that, in contrast to the ladders, a small charge ordering in the chains, strongly enhances the spin-Peierls instability. Our results are applied to the NaV_2O_5 compound (trellis lattice) and various phases with coexisting charge disproportionation and spin-Peierls order are proposed and discussed in the context of recent experiments. The role of the long-range Coulomb potential is also outlined.Comment: 10 pages, Revtex, 10 encapsulated figure

    At the margins of ideal cities: the dystopian drift of modern utopias

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    Contemporary political philosophy has critically reflected on—if not denounced—the theoretical constructions and political enterprises that have been encouraged by modern Utopian tradition. This process of critical reflection has constantly signaled the tension between the emancipatory aspirations of that thought and its dystopian drift. Many authors have highlighted the problems that affect the constitution of those ideal cities. However, this article will be focused on the exclusive and excluding character of those ideal narratives, of those unblemished ideal spaces, of those happy spaces that are, in the end, nonspaces. This article will explain the meanings of the modern utopias taking into account the postmodern point of view that shows the exclusion the modern utopias provoke. At the margins of the ideal cities live all those beings that the utopias have vomited out and expelled from their perfect world: monsters, abnormals, infamous, pariahs, and countryless refugees. Those beings— so well described by Arendt and Foucault, among others—are those who are not part of any ideal city; they are the stones that the builders of the perfect cities have used to build them or have discarded them

    Assumptionitis in Strategy

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    17 USC 105 interim-entered record; under review.The article of record as published may be found at https://thestrategybridge.org/the-bridge/2021/6/21/assumptionitis-in-strategyU.S. Government affiliation is unstated in article text

    Dynamic spin Jahn-Teller effect in small magnetic clusters

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    We study the effect of spin-phonon coupling in small magnetic clusters, concentrating on a S=1/2 ring of 4 spins coupled antiferromagnetically. If the phonons are treated as classical variables, there is a critical value of the spin-phonon coupling above which a static distortion occurs. This is a good approximation if the zero point energy is small compared to the energy gain due to the distortion, which is true for large exchange interactions compared to the phonons energy (J≫ℏωJ\gg\hbar\omega). In the opposite limit, one can integrate out the phonon degrees of freedom and get an effective spin hamiltonian. Using exact diagonalizations to include the quantum nature of both spins and phonons, we obtain the spectrum in the whole range of parameters and explicit the crossover between the classical and quantum regimes. We then establish quantitatively the limits of validity of two widely used approaches (one in the quantum and one in the classical limits) and show that they are quite poor for small magnetic clusters. We also show that upon reducing ℏω/J\hbar\omega/J the first excitation of a 4-site cluster becomes a singlet, a result that could be relevant for Cu2_2Te2_2O5_5Br2_2

    El giro kantiano del contractualismo

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    CFD-based scale-up of hydrodynamics and mixing in bubble columns

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    Unsteady and three-dimensional Eulerian–Eulerian CFD simulations of bubble column reactors under operating conditions of industrial interest are discussed in this work. The flow pattern in this equipment depends strongly on the interactions between the gas and liquid phases, mainly via the drag force. In this work, a correlation for the drag force coefficient is tested and improved to consider the so-called swarm effect that modifies the drag force at high gas volume fractions. The improved swarm factor proposed in this work is the adjustment of the swarm factor proposed by Simonnet et al. (2008). This new swarm factor is suitable for very high gas volume fractions without generating stability problems, which were encountered with the original formulation. It delivers an accurate prediction of gas volume fraction and liquid velocity in a wide range of tested operating conditions. Results are validated by comparison with experimental data on bubble column reactors at different scales and for several operating conditions. Hydrodynamics is well predicted for every operating condition at different scales. Several turbulence models are tested. Finally, the contribution of Bubble Induced Turbulence (BIT), as proposed by AlmĂ©ras et al. (2015), on mixing is evaluated via an analysis of the mixing time

    Clay fine fissuring monitoring using miniature geo-electrical resistivity arrays

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    Abstract This article describes a miniaturised electrical imaging (resistivity tomography) technique to map the cracking pattern of a clay model. The clay used was taken from a scaled flood embankment built to study the fine fissuring due to desiccation and breaching process in flooding conditions. The potential of using a miniature array of electrodes to follow the evolution of the vertical cracks and number them during the drying process was explored. The imaging technique generated two-dimensional contoured plots of the resistivity distribution within the model before and at different stages of the desiccation process. The change in resistivity associated with the widening of the cracks were monitored as a function of time. Experiments were also carried out using a selected conductive gel to slow down the transport process into the cracks to improve the scanning capabilities of the equipment. The main vertical clay fissuring network was obtained after inversion of the experimental resistivity measurements and validated by direct observations
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