5,007 research outputs found

    US disaster protection is not up to scratch in the states which are most vulnerable to hurricanes

    Get PDF
    The destruction wrought by 2017's hurricane season has exposed that the southern US is still very vulnerable to such natural hazards. In new research, Alejandro Quiroz Flores examines disaster preparedness across many countries, including the US. He finds that while even autocracies are able to protect their populations, the US still has a poor record on preparedness. Hurricanes are often ..

    In Vitro Propagation Studies on the Initial and Establishment Stages of Rubber (Hevea Brasiliensis Muell. Arg.)

    Get PDF
    Development of in vitro methods to propagate rubber is highly desirable. Some procedures exist but they generally do not address well the initial and establishment stages. This leads to minimal arrest of two common deterrents in any micropropagation system, i.e., contamination and browning. This project attempted to study both contamination and browning phenomena with an aim of improving survival without altering regeneration of explants. Field materials of clone RRIM 600 were used. Experiments on the Initial and Establishment stages, their interactions and concluding experiments were conducted. In all experiments, explants were cultured in the standard tissue culture procedures on basic MS medium. In the Initial stage, the results showed no significant difference between chemical treatments of antibiotics and/or fungicide in the field and control. As for the physical characteristics, efficient initial measures were to use 6-week old middle portions or shoot tips. This could be improved by growing these explants in a glasshouse. In the Establishment stage, the most efficient procedure to decontaminate explants was Procedure E that included a succession of treatments with ethanol, Clorox, Rifampicin, Ampicillin, DMSO and Triton-X before culturing. Regarding debrowning treatments, the best overall responses were obtained by culturing explants in MS medium (half strength) modified by the addition of 4 mg/L silver nitrate. In the analysis of the interactions between treatments in the Initial and Establishment stages, results showed that the combination of treatments with better potential was the one that included the use of mature explants (6-week old) surface decontaminated by Procedure E

    The Effect of the Number of Lending Banks on the Liquidity Constraints of Firms: Evidence From a Quasi-Experiment

    Get PDF
    We empirically explore whether firms have a target for the number of banks from which they borrow, and whether having multiple bank relationships has an impact on firms’ liquidity situation. A bank merger in Chile provides a quasi-experiment as it constitutes an exogenous reduction in the number of lenders for firms that were previously borrowing from both merging banks. We find that a significant percentage of firms whose number of bank relationships was reduced by the merger regain their original number of lenders. In particular, firms whose number of bank lending relationships was reduced from two to one as a result of the merger have a 23% higher probability of adding a new bank lending relationship in the five years following the merger than similar firms unaffected by the merger. Overall, we find that a reduction in firms’ number of bank lenders resulting from the merger reduced firms’ access to credit. In particular, a reduction from two to one bank lending relationships generated, on average, a 14.4% decrease in loan size for the affected companies compared to firms unaffected by the merger.

    Quantum information with black boxes : lifting protocols from theory to implementation

    Get PDF
    According to recent estimates, 10^18 bytes of data are generated on a daily basis around the globe. Our information society urges for radical solutions to treat such data deluge. By exploiting fundamental key elements of quantum theory -arguably the most probed theory of modern physics- quantum information science is nowadays revolutionizing the way in which we acquire, process, store and transmit information. In the midst of the information era, the potential of quantum technologies is being recognized by the industry sector, and in turn, new capabilities for quantum information processing keep driving exciting discoveries related to more fundamental aspects of science. There are several research programs all around the world fostering the development and commercialization of quantum technologies, mostly for cryptographic and randomness generation duties. Thus, the technological limitations that today step us aside from the quantum information era are gradually being overcome. But there is a fundamental issue that still needs to be faced: the impossibility to know what is really going on in quantum experiments, due to their atomic-scale dimensions. Indeed, how will an average user guarantee the proper functioning of a quantum device that has been purchased from an external company? To his eyes, the device will merely look like a black box. Even if the customer holds a PhD in quantum science, the issue will remain fundamentally cumbersome because of the impossibility to fully control, i.e. monitor, all the physical processes occurring in any quantum experiment. Furthermore, the situation turns even more dramatic when considering adversarial applications, where a malicious eavesdropper could break the devices to manipulate their internal working, turning the protocol insecure and hence irrelevant as well. Therefore, it is the purpose of this Thesis to contribute to the experimental development of quantum information protocols with uncharacterized devices, namely, device-independent quantum information protocols. These protocols are naturally immune to any attack or failure related to mismatches between protocol theory and its actual implementation. This is achieved throughout the different Chapters by pursuing the following three overlapping duties: (i) To broaden theoretic capabilities by establishing a richer understanding of relevant fundamental resources lying at the basis of the theory of quantum information with uncharacterized devices. (ii) To develop competitive quantum information protocols by finding an adequate trade-off between high-performance and practicability; between the power of the device-independent framework and its less demanding, so-called semi-device-independent, relaxations. (iii) To analyze and improve experimental conditions of diverse physical setups in order to carry out implementations in proof-of-principle experiments demonstrating quantum information protocols with black boxes. Our objective of turning the theory of quantum information into a graspable technology for our society through the development and implementation of protocols based on the minimalist, user-friendly, black-box paradigm contributes not only to the technological development of these protocols, but it also offers valuable insights on more fundamental aspects of quantum theory. In this sense, we contribute to the characterization and quantification of entanglement -the pivotal quantum resource at the basis of most testable phenomena without classical account- in scenarios of practical interest where uncharacterized devices are used. From the more applied perspective, we contribute to the development of two specific information tasks: the certification of genuinely random numbers in device-independent and semi-device-independent scenarios, and the generation of a shared secret key among two parties in a full device-independent manner.De acuerdo con estimaciones recientes, 10^18 bytes de datos se generan diariamente alrededor del mundo. Nuestra sociedad necesita urgentemente soluciones efectivas para lidiar con este diluvio de datos. Utilizando elementos fundamentales de la teoría cuántica -la teoría más explorada de la física moderna, posiblemente- la información cuántica está revolucionando la forma en la que adquirimos, procesamos, almacenamos y transmitimos información. En plena era de la información, el sector industrial reconoce cada vez más el potencial de las tecnologías cuánticas, y a su vez nuevos desarrollos en el procesamiento de la información cuántica continúan impulsando descubrimientos prominentes relacionados con aspectos científcos de carácter más fundamental. Existen varios programas de investigación alrededor del mundo desarrollando y comercializando tecnologías cuánticas, principalmente para aplicaciones de criptografía y generación de números aleatorios. Así, las limitaciones que hoy nos separan de la era de la información cuántica están siendo gradualmente superadas. Sin embargo, existe un problema fundamental que aún necesita ser enfrentado: la imposibilidad de saber lo que realmente sucede en un experimento cuántico, debido a sus dimensiones de tamaño atómico. En efecto, ¿cómo podrá un usuario garantizar el funcionamiento adecuado de un dispositivo cuántico que ha sido adquirido a través de una compañía externa? A sus ojos el dispositivo será una verdadera caja negra. Incluso si el usuario contara con un Doctorado en ciencia cuántica, el problema prevalecería insoluble debido a la imposibilidad de controlar a la perfección, es decir monitorear, todos los procesos físicos que ocurren en cualquier experimento cuántico. Además, la situación se vuelve aún más dramática si se piensa en aplicaciones en donde un agente maligno pudiese hackear los dispositivos y manipular su funcionamiento interno, volviendo así el protocolo en cuestión inseguro y por ende también irrelevante. El propósito de esta Tesis es entonces contribuir al desarrollo experimental de protocolos de información cuántica con dispositivos sin caracterizar, llamados "device-independent". Estos protocolos son, por naturaleza, immunes a cualquier ataque o falla relacionada con desajustes entre la teoría y la implementación del protocolo. Esto se logra a lo largo de los diferentes Capítulos prosiguiendo las siguientes tres tareas que en ocasiones se traslapan: (i) Ampliar las capacidades teóricas estableciendo un entendimiento mayor de los recursos fundamentales de la teoría de la información cuántica con dispositivos sin caracterizar. (ii) Desarrollar protocolos de información cuántica competitivos, encontrando un intercambio adecuado entre alto rendimiento y practicabilidad; entre el poder del marco de trabajo device-independent y sus menos demandantes versiones, dichas "semi-device-independent". (iii) Analizar y mejorar las condiciones experimentales de diversas plataformas para llevar a cabo implementaciones en experimentos de prueba de principio, demostrando la realización de protocolos de información cuántica con cajas negras. Nuestro objetivo de convertir la teoría de la información cuántica en una tecnología tangible para nuestra sociedad a través del uso de dispositivos sin caracterizar contribuye no solamente al desarrollo tecnológico de estos protocolos, sino que también ofrece una visión valiosa de aspectos más fundamental. En este sentido, contribuimos a la caracterización y cuantificación del entrelazamiento -el recurso cuántico fundamental de muchos fenómenos sin contraparte clásica- en escenarios de interés práctico en dónde se consideran dispositivos sin caracterizar. Desde la perspectiva más aplicada, contribuimos al desarrollo de dos tareas específicas: la certificación de números genuinamente aleatorios en escenarios device-independent y semi-device-independent, y la generación de una llave secreta entre dos partes de manera device-independent

    Is Macroporosity Controlled by Complexed Clay and Soil Organic Carbon?

    Get PDF
    Multi-scale evidence of rapid, climate-induced soil structural changes occurring at yearly to decadal timescales is mounting. As a result, it has become increasingly important to identify the properties and mechanisms controlling the development and maintenance of soil structure and associated macroporosity. This is especially relevant since macroporosity has disproportionate effects on saturated hydraulic conductivity (Ksat) which strongly influences water storage and flux, thus, affecting the water cycle. In this study, we use decision trees and piecewise linear regression to assess the influence of soil and climate properties on effective porosity (EP; a proxy of macroporosity) in both surface and subsurface horizons under varying land-use and management practices. Data from 1,491 pedons (3,679 horizons) spanning five ecoregions representing bioclimate (e.g., potential vegetation) across the conterminous US demonstrate that, at a continental scale, EP in surface (A) and subsurface (B) horizons is strongly dependent on the complexed fraction of the total mass of soil organic carbon (SOC) and clay; a combined fraction that we refer to as complexed organic carbon and clay (COCC). EP showed a slight positive response to COCC in A horizons but increased steeply with increasing COCC in B horizons. This is because the smaller values of COCC in B horizons reflect a larger pool of clay that has a greater potential to accommodate and complex additions of SOC promoting stronger organo-mineral bonds and the concomitant development and maintenance of soil structure in these horizons. In contrast, larger values of COCC in A horizons reflect conditions where all or most of the clay fraction is effectively complexed with SOC resulting in a larger pool of non-complexed soil organic matter with varying contrasting effects on macroporosity that ultimately mute the response of EP to increases in COCC. In surface horizons, indirect factors such as mean annual precipitation and land use were important predictors of EP, whereas COCC was more influential in controlling EP within the subsoil. The EP-COCC relationship also holds within ecoregions but its effect is mitigated by soil and climate interactions suggesting that the effect of climate on this relationship is indirect and complex. Plowed surface horizons and horizons underlying plowed layers showed greater homogenization (due to disturbance effects reducing heterogeneity in the soil) as well as a reduction in the magnitude and rate of change of EP as a function of COCC compared to undisturbed horizons. Our findings suggest that the complexed fraction of clay and SOC is important for controlling macroporosity and Ksat at ecoregion scales and that the EP-COCC relationship may be an important framework for understanding and predicting future land use- and climate-induced changes in soil hydraulic properties
    corecore