1,164 research outputs found

    Structure and Dynamics of Trade in a Small Economy in Transition before the EU Accession: The Case of Czech Exports and Imports

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    The basic objective of this paper is to design an appropriate structural model based on economic behavioral foundations and test it on data representing the determining factors of Czech trade specialization and growth. Policy recommendations based on the functioning of some policy instruments relevant to monetary policy decisions are also a part of the study. In the empirical part of the analysis, we use alternative specifications of export and import functions estimated as panels for the EU and non-EU countries, disaggregated into 29 industries for 1993-2001. It is evident from our tests that the future of the Czech trade balance and GDP growth will hinge on ow the Czech economy substitutes its present comparative advantage in labor by building up its capital endowments, most notably its human capital endowments. Although our tests confirm that the balance of trade was fundamentally influenced by the exchange rate, aggregate demand and tariff changes, the underlying fundamental factors relevant for a sustainable trade balance and an equilibrium exchange rate rest on supply-side capacities (such as changes in factor endowments, inflows of foreign direct investment (FDI), developments in productivity and wage rates, pricing policy of enterprises and the nature of competitiveness of domestic production), which are extremely closely related to export and import performance. It seems evident that industrial policies (such as support for FDI, capital availability, the building-up of human capital or labor mobility and the promotion of domestic import substitution) can lead to significant changes in the nature of Czech exports and international competitiveness. We can induce from our analysis that the fundamental restructuring of Czech enterprises in the period 1993 -2001 was driven by openness to trade, especially with the EU. While exports offered growth and employment, accelerating import penetration required the downsizing of many industries, which burdened the whole Czech economy with high adjustment costs. Now, in a period of economic structural stabilization and EU accession, the prospects for accelerated economic growth are much higher. The seemingly low or even reversed response of trade intensities to real exchange rate appreciation can be explained by supply-side gains in the quality of products, productivity improvements, the buildup of human capital associated with FDI and the fast dynamics of intra-industrial trade, which had a low sensitivity to exchange rate fluctuations. Relative to the unwieldy performance of the state sector or the domestic production of the non-traded commodities, Czech export sector made a tremendous progress in competitiveness during 1993- 2001, showing high dynamics of growth, intensive level of structural adjustments and an accelerated seed of integration with the EU

    Future of management of recreational gill, haul, and cast netting in Western Australia and summary of submissions to the netting review

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    The results of a major review into recreational gill and haul netting in Western Australia were announced by the Minister for Fisheries, Hon. Monty House MLA on 24 December 1993. This document presents the findings of the recreational netting review and the process which resulted in the announced changed to management practices

    Leptin in Teleost Fishes: An Argument for Comparative Study

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    All organisms face tradeoffs with regard to how limited energy resources should be invested. When is it most favorable to grow, to reproduce, how much lipid should be allocated to storage in preparation for a period of limited resources (e.g., winter), instead of being used for growth or maturation? These are a few of the high consequence fitness “decisions” that represent the balance between energy acquisition and allocation. Indeed, for animals to make favorable decisions about when to grow, eat, or reproduce, they must integrate signals among the systems responsible for energy acquisition, storage, and demand. We make the argument that leptin signaling is a likely candidate for an integrating system. Great progress has been made understanding the leptin system in mammals, however our understanding in fishes has been hampered by difficulty in cloning fish orthologs of mammalian proteins and (we assert), underutilization of the comparative approach

    Study of the island morphology at the early stages of Fe/Mo(110) MBE growth

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    We present theoretical study of morphology of Fe islands grown at Mo(110) surface in sub-monolayer MBE mode. We utilize atomistic SOS model with bond counting, and interactions of Fe adatom up to third nearest neighbors. We performed KMC simulations for different values of adatom interactions and varying temperatures. We have found that, while for the low temperature islands are fat fractals, for the temperature 500K islands have faceted rhombic-like shape. For the higher temperature, islands acquire a rounded shape. In order to evaluated qualitatively morphological changes, we measured averaged aspect ration of islands. We calculated dependence of the average aspect ratio on the temperature, and on the strength of interactions of an adatom with neighbors.Comment: 6 pages, 6 figures. Proceedings of 11-th Symposium on Surface Physics, Prague 200

    LANSCE Digital Low Level RF Upgrade

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    Incremental upgrades of the legacy low level RF (LLRF) equipment-50 years for the Los Alamos Neutron Science Center (LANSCE)-involves challenges and problems not seen with new and total replacement opportunities. The digital LLRF upgrade at LANSCE has deployed 30 of the 53 required systems as of September 2022. This paper describes the performance of the digital upgrade, current status, and future installations along with the technical challenges, including unexpected challenges, associated with deploying new digital systems in conjunction with legacy analog equipment. In addition, this paper discusses the operational details of simultaneous multi-energy beam operations using high energy re-bunching, beam-type specific set points and simultaneous multi-beam operations at LANSCE. The adaptability of the digital LLRF systems is essential as the design is able to accommodate new control and beam parameters associated with future systems without significant hardware modifications such as the expected LANSCE Modernization Program. This adaptability of the digital LLRF technology was recently demonstrated with the Module 1, 201.25-MHz high-power RF upgrade completed in 2021.Comment: Talk presented at LLRF Workshop 2022 (LLRF2022, arXiv:2208.13680

    Enhanced low-energy γ\gamma-decay strength of 70^{70}Ni and its robustness within the shell model

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    Neutron-capture reactions on very neutron-rich nuclei are essential for heavy-element nucleosynthesis through the rapid neutron-capture process, now shown to take place in neutron-star merger events. For these exotic nuclei, radiative neutron capture is extremely sensitive to their γ\gamma-emission probability at very low γ\gamma energies. In this work, we present measurements of the γ\gamma-decay strength of 70^{70}Ni over the wide range 1.3Eγ81.3 \leq E_{\gamma} \leq 8 MeV. A significant enhancement is found in the γ\gamma-decay strength for transitions with Eγ<3E_\gamma < 3 MeV. At present, this is the most neutron-rich nucleus displaying this feature, proving that this phenomenon is not restricted to stable nuclei. We have performed E1E1-strength calculations within the quasiparticle time-blocking approximation, which describe our data above Eγ5E_\gamma \simeq 5 MeV very well. Moreover, large-scale shell-model calculations indicate an M1M1 nature of the low-energy γ\gamma strength. This turns out to be remarkably robust with respect to the choice of interaction, truncation and model space, and we predict its presence in the whole isotopic chain, in particular the neutron-rich 72,74,76Ni^{72,74,76}\mathrm{Ni}.Comment: 9 pages, 9 figure

    Using urban climate modelling and improved land use classifications to support climate change adaptation in urban environments: A case study for the city of Klagenfurt, Austria

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    This study outlines the results of current and future climate scenarios, and potentially realizable climate adaptation measures, for the city of Klagenfurt, Austria. For this purpose, we used the microscale urban climate model (MUKLIMO_3), in conjunction with the cuboid method, to calculate climate indices such as the average number of summer and hot days per year. For the baseline simulation, we used meteorological measurements from 1981 to 2010 from the weather station located at Klagenfurt Airport. Individual building structures and canopy cover from several land monitoring services were used to derive accurate properties for land use classes in the study domain. To characterize the effectiveness of climate adaptation strategies, we compared changes in the climate indices for several (future) climate adaptation scenarios to the reference simulation. Specifically, we considered two major adaptation pathways: (i) an increase in the albedo values of sealed areas (i.e., roofs, walls and streets) and (ii) an increase in green surfaces (i.e., lawns on streets and at roof level) and high vegetated areas (i.e., trees). The results indicate that some climate adaptation measures show higher potential in mitigating hot days than others, varying between reductions of 2.3 to 11.0%. An overall combination of adaptation measures leads to a maximum reduction of up to 44.0%, indicating a clear potential for reduction/mitigation of urban heat loads. Furthermore, the results for the future scenarios reveal the possibility to remain at the current level of urban heat load during the daytime over the next three decades for the overall combination of measures

    Measurement of the neutron capture cross-section on argon

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    The use of argon as a detection and shielding medium for neutrino and dark matter experiments has made the precise knowledge of the cross section for neutron capture on argon an important design and operational parameter. Since previous measurements were averaged over thermal spectra and have significant disagreements, a differential measurement has been performed using a Time-Of-Flight neutron beam and a \sim4π\pi gamma spectrometer. A fit to the differential cross section from 0.0150.150.015-0.15\,eV, assuming a 1/v1/v energy dependence, yields σ2200=673±26 (stat.)±59 (sys.)\sigma^{2200} = 673 \pm 26 \text{ (stat.)} \pm 59 \text{ (sys.)}\,mb.Comment: 5 pages, 4 figures; final version of the paper; added details and fix reference

    Recognition and coacervation of G-quadruplexes by a multifunctional disordered region in RECQ4 helicase

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    Biomolecular polyelectrolyte complexes can be formed between oppositely charged intrinsically disordered regions (IDRs) of proteins or between IDRs and nucleic acids. Highly charged IDRs are abundant in the nucleus, yet few have been functionally characterized. Here, we show that a positively charged IDR within the human ATP-dependent DNA helicase Q4 (RECQ4) forms coacervates with G-quadruplexes (G4s). We describe a three-step model of charge-driven coacervation by integrating equilibrium and kinetic binding data in a global numerical model. The oppositely charged IDR and G4 molecules form a complex in the solution that follows a rapid nucleation-growth mechanism leading to a dynamic equilibrium between dilute and condensed phases. We also discover a physical interaction with Replication Protein A (RPA) and demonstrate that the IDR can switch between the two extremes of the structural continuum of complexes. The structural, kinetic, and thermodynamic profile of its interactions revealed a dynamic disordered complex with nucleic acids and a static ordered complex with RPA protein. The two mutually exclusive binding modes suggest a regulatory role for the IDR in RECQ4 function by enabling molecular handoffs. Our study extends the functional repertoire of IDRs and demonstrates a role of polyelectrolyte complexes involved in G4 binding

    A cost–benefit analysis of implementing urban heat island adaptation measures in small- and medium-sized cities in Austria

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    Urban heat islands are an increasing concern even in small- to medium-sized cities, although these areas are still understudied especially in terms of the economic feasibility of adaptation options. This paper uses adaptation scenarios produced by an urban climate model as inputs to a social cost–benefit analysis in three small- to medium-sized cities in Austria: Mödling, Klagenfurt, and Salzburg. The adaptation scenarios, which consider measures such as increasing the reflectivity of different sealed surfaces (referred to as the White City scenario) as well as greening measures (i.e. the Green City scenario), show decreases in the number of hot days (Tmax ≥30°C) when implemented. Benefits include reductions in heat-related mortality, which are modeled based on trends of daily mortality and climate data, reduced morbidity, productivity loss, and numerous urban ecosystem services. The results demonstrate favorable benefit–cost ratios of a combination of measures (White and Green City) of 1.27, 1.36, and 2.68 for Mödling, Klagenfurt, and Salzburg, respectively, indicating positive economic grounds for supporting policies in line with the adaptation scenarios. Furthermore, results of the Green City vs. White City showed higher benefits for the combined and Green City scenarios despite higher costs for each of the cities
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