21,710 research outputs found

    Shear-stress controlled dynamics of nematic complex fluids

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    Based on a mesoscopic theory we investigate the non-equilibrium dynamics of a sheared nematic liquid, with the control parameter being the shear stress σxy\sigma_{\mathrm{xy}} (rather than the usual shear rate, γ˙\dot\gamma). To this end we supplement the equations of motion for the orientational order parameters by an equation for γ˙\dot\gamma, which then becomes time-dependent. Shearing the system from an isotropic state, the stress- controlled flow properties turn out to be essentially identical to those at fixed γ˙\dot\gamma. Pronounced differences when the equilibrium state is nematic. Here, shearing at controlled γ˙\dot\gamma yields several non-equilibrium transitions between different dynamic states, including chaotic regimes. The corresponding stress-controlled system has only one transition from a regular periodic into a stationary (shear-aligned) state. The position of this transition in the σxy\sigma_{\mathrm{xy}}-γ˙\dot\gamma plane turns out to be tunable by the delay time entering our control scheme for σxy\sigma_{\mathrm{xy}}. Moreover, a sudden change of the control method can {\it stabilize} the chaotic states appearing at fixed γ˙\dot\gamma.Comment: 10 pages, 11 figure

    Gaussian quantum fluctuations in interacting many particle systems

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    We consider a many particle quantum system, in which each particle interacts only with its nearest neighbours. Provided that the energy per particle has an upper bound, we show, that the energy distribution of almost every product state becomes a Gaussian normal distribution in the limit of infinite number of particles. We indicate some possible applications.Comment: 10 pages, formulation made mathematically more precise, two examples added, accepted for publication in Letters in Mathematical Physic

    Magnon Heat Conductivity and Mean Free Paths in Two-Leg Spin Ladders: A Model-Independent Determination

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    The magnon thermal conductivity κmag\kappa_{\mathrm{mag}} of the spin ladders in Sr14Cu24−xZnxO41\rm Sr_{14}Cu_{24-x}Zn_xO_{41} has been investigated at low doping levels x=0x=0, 0.125, 0.25, 0.5 and 0.75. The Zn-impurities generate nonmagnetic defects which define an upper limit for lmagl_{\mathrm{mag}} and therefore allow a clear-cut relation between lmagl_{\mathrm{mag}} and κmag\kappa_{\mathrm{mag}} to be established independently of any model. Over a large temperature range we observe a progressive suppression of κmag\kappa_{\mathrm{mag}} with increasing Zn-content and find in particular that with respect to pure Sr14Cu24O41\rm Sr_{14}Cu_{24}O_{41} κmag\kappa_{\mathrm{mag}} is strongly suppressed even in the case of tiny impurity densities where lmag≲374l_{\mathrm{mag}}\lesssim 374~{\AA}. This shows unambiguously that large lmag≈3000l_{\mathrm{mag}}\approx 3000~{\AA} which have been reported for Sr14Cu24O41\rm Sr_{14}Cu_{24}O_{41} and La5Ca9Cu24O41\rm La_{5}Ca_9Cu_{24}O_{41} on basis of a kinetic model are in the correct order of magnitude

    Cloning crops in a CELSS via tissue culture: Prospects and problems

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    Micropropagation is currently used to clone fruits, nuts, and vegetables and involves controlling the outgrowth in vitro of basal, axillary, or adventitious buds. Following clonal multiplication, shoots are divided and rooted. This process has greatly reduced space and energy requirements in greenhouses and field nurseries and has increased multiplication rates by greater than 20 fold for some vegetatively propagated crops and breeding lines. Cereal and legume crops can also be cloned by tissue culture through somatic embryogenesis. Somatic embryos can be used to produce 'synthetic seed', which can tolerate desiccation and germinate upon rehydration. Synthetic seed of hybrid wheat, rice, soybean and other crops could be produced in a controlled ecological life support system. Thus, yield advantages of hybreds over inbreds (10 to 20 percent) could be exploited without having to provide additional facilities and energy for parental-line and hybrid seed nurseries
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