1,657 research outputs found

    Quantum Simulations of out-of Equilibrium Phenomna

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    Rate-dependent morphology of Li2O2 growth in Li-O2 batteries

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    Compact solid discharge products enable energy storage devices with high gravimetric and volumetric energy densities, but solid deposits on active surfaces can disturb charge transport and induce mechanical stress. In this Letter we develop a nanoscale continuum model for the growth of Li2O2 crystals in lithium-oxygen batteries with organic electrolytes, based on a theory of electrochemical non-equilibrium thermodynamics originally applied to Li-ion batteries. As in the case of lithium insertion in phase-separating LiFePO4 nanoparticles, the theory predicts a transition from complex to uniform morphologies of Li2O2 with increasing current. Discrete particle growth at low discharge rates becomes suppressed at high rates, resulting in a film of electronically insulating Li2O2 that limits cell performance. We predict that the transition between these surface growth modes occurs at current densities close to the exchange current density of the cathode reaction, consistent with experimental observations.Comment: 8 pages, 6 fig

    Hawking Radiation from an Acoustic Black Hole on an Ion Ring

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    In this article we propose to simulate acoustic black holes with ions in rings. If the ions are rotating with a stationary and inhomogeneous velocity profile, regions can appear where the ion velocity exceeds the group velocity of the phonons. In these regions phonons are trapped like light in black holes, even though we have a discrete field theory and a nonlinear dispersion relation. We study the appearance of Hawking radiation in this setup and propose a scheme to detect it.Comment: 4 pages, 3 figures, minor revisions, published versio

    Differenzierung an polymorphen Enzymloci – das Resultat von Drift oder Selektion?:Freilanduntersuchungen an den Laufkäferarten Carabus granulatus und Carabus auronitens

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    Ziel der Analysen war es, räumliche und zeitliche Veränderungen der Allelfrequenzen der Glucose-6-Phosphat-Isomerase (Gpi) bei Carabus granulatus sowie einer Esterase bei Carabus auronitens zu analysieren. Die Auftrennung der Allozymvarianten erfolgte mittels Elektrophorese. Bei Gpi traten 18 Varianten auf. Es wurden signifikante kleinräumige und zeitlich instabile Allelhäufigkeitsunterschiede sowie Abweichungen vom Hardy-Weinberg-Gleichgewicht festgestellt. Die FST-Werte (0,0041 bis 0,0203) zeigten signifikante Differenzierungen an. Um mögliche Selektionswirkungen zu prüfen, wurden C. granulatus-Individuen mit bekannten Gpi-Genotypen hinsichtlich ihres Verhaltens verglichen. Bei C. auronitens wurden Träger der Allele s und f auf Unterschiede im Aktivitätsverhalten untersucht. Bei beiden Polymorphismen fanden sich keine Hinweise auf das Wirksamwerden von strenger und/oder gerichteter Selektion. Für C. granulatus wird ein Populationsmodell entwickelt, das kleinräumige und zeitlich instabile Differenzierungen allein mit Driftereignissen erklärt

    On the robustness of entanglement in analogue gravity systems

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    We investigate the possibility of generating quantum-correlated quasi-particles utilizing analogue gravity systems. The quantumness of these correlations is a key aspect of analogue gravity effects and their presence allows for a clear separation between classical and quantum analogue gravity effects. However, experiments in analogue systems, such as Bose–Einstein condensates (BECs) and shallow water waves, are always conducted at non-ideal conditions, in particular, one is dealing with dispersive media at non-zero temperatures. We analyse the influence of the initial temperature on the entanglement generation in analogue gravity phenomena. We lay out all the necessary steps to calculate the entanglement generated between quasi-particle modes and we analytically derive an upper bound on the maximal temperature at which given modes can still be entangled. We further investigate a mechanism to enhance the quantum correlations. As a particular example, we analyse the robustness of the entanglement creation against thermal noise in a sudden quench of an ideally homogeneous BEC, taking into account the super-sonic dispersion relations

    Coherent control of a surface structural phase transition

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    Active optical control over matter is desirable in many scientific disciplines, with prominent examples in all-optical magnetic switching1,2, light-induced metastable or exotic phases of solids3,4,5,6,7,8 and the coherent control of chemical reactions9,10. Typically, these approaches dynamically steer a system towards states or reaction products far from equilibrium. In solids, metal-to-insulator transitions are an important target for optical manipulation, offering ultrafast changes of the electronic4 and lattice11,12,13,14,15,16 properties. The impact of coherences on the efficiencies and thresholds of such transitions, however, remains a largely open subject. Here, we demonstrate coherent control over a metal–insulator structural phase transition in a quasi-one-dimensional solid-state surface system. A femtosecond double-pulse excitation scheme17,18,19,20 is used to switch the system from the insulating to a metastable metallic state, and the corresponding structural changes are monitored by ultrafast low-energy electron diffraction21,22. To govern the transition, we harness vibrational coherence in key structural modes connecting both phases, and observe delay-dependent oscillations in the double-pulse switching efficiency. Mode-selective coherent control of solids and surfaces could open new routes to switching chemical and physical functionalities, enabled by metastable and non-equilibrium states

    Hawking Radiation on an Ion Ring in the Quantum Regime

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    This paper discusses a recent proposal for the simulation of acoustic black holes with ions. The ions are rotating on a ring with an inhomogeneous, but stationary velocity profile. Phonons cannot leave a region, in which the ion velocity exceeds the group velocity of the phonons, as light cannot escape from a black hole. The system is described by a discrete field theory with a nonlinear dispersion relation. Hawking radiation is emitted by this acoustic black hole, generating entanglement between the inside and the outside of the black hole. We study schemes to detect the Hawking effect in this setup.Comment: 42 pages (one column), 17 figures, published revised versio

    The one-dimensional Keller-Segel model with fractional diffusion of cells

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    We investigate the one-dimensional Keller-Segel model where the diffusion is replaced by a non-local operator, namely the fractional diffusion with exponent 0<α≤20<\alpha\leq 2. We prove some features related to the classical two-dimensional Keller-Segel system: blow-up may or may not occur depending on the initial data. More precisely a singularity appears in finite time when α<1\alpha<1 and the initial configuration of cells is sufficiently concentrated. On the opposite, global existence holds true for α≤1\alpha\leq1 if the initial density is small enough in the sense of the L1/αL^{1/\alpha} norm.Comment: 12 page
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