10,328 research outputs found

    Heavy ion plasma confinement in an RF quadrupole trap

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    The confinement of an electron free plasma in a pure quadrupole RF electric trap was considered. The ultimate goal was to produce a large density of mercury ions, in order to realize a trapped ion frequency standard using the hyperfine resonance of 199 Hg(+) at 40.7 GHz. An attempt was made to obtain an iodine plasma consisting of equal numbers of positive and negative ions of atomic iodine, the positive iodine ions, being susceptible to charge-exchange with mercury atoms, will produce the desired mercury ions. The experiment showed that the photoproduction of ions pairs in iodine using the necessary UV radiation occurs with a small cross-section, making it difficult to demonstrate the feasibility of space charge neutralization in a quadrupole trap. For this reason it was considered expedient to choose thallium iodide, which has a more favorable absorption spectrum (in the region of 2000 to 2100 A). The results indicate that, although the ionic recombination is a serious limiting factor, a considerable improvement can be obtained in practice for the density of trapped ions, with a considerable advantage in lifetimes for spectroscopic purposes. The ion pair formation by photoionization is briefly reviewed

    The Snowmelt-Runoff Model (SRM) user's manual

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    A manual to provide a means by which a user may apply the snowmelt runoff model (SRM) unaided is presented. Model structure, conditions of application, and data requirements, including remote sensing, are described. Guidance is given for determining various model variables and parameters. Possible sources of error are discussed and conversion of snowmelt runoff model (SRM) from the simulation mode to the operational forecasting mode is explained. A computer program is presented for running SRM is easily adaptable to most systems used by water resources agencies

    ON THE MEDIAEVAL HUNGARIAN TOWNSCAPE

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    Spin-triplet paired phases inside ferromagnet induced by Hund's rule coupling and electronic correlations: Application to UGe2\mathrm{UGe}_2

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    We discuss a mechanism of real-space spin-triplet pairing, alternative to that due to quantum paramagnon excitations, and demonstrate its applicability to UGe2\mathrm{UGe_2}. Both the Hund's rule ferromagnetic exchange and inter-electronic correlations contribute to the same extent to the equal-spin pairing, particularly in the regime in which the weak-coupling solution does not provide any. The theoretical results, obtained within the orbitally-degenerate Anderson lattice model, match excellently the observed phase diagram for UGe2\mathrm{UGe_2} with the coexistent ferromagnetic (FM1) and superconducting (A1A_1-type) phase. Additionally, weak A2A_2- and AA-type paired phases appear in very narrow regions near the metamaganetic (FM2 →\rightarrow FM1) and FM1 →\rightarrow paramagnetic first-order phase-transition borders, respectively. The values of magnetic moments in the FM2 and FM1 states are also reproduced correctly in a semiquantitative manner. The Hund's metal regime is also singled out as appearing near FM1-FM2 boundary

    A sock for foot-drop: A preliminary study on two chronic stroke patients

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    Background: Foot-drop is a common motor impairment of chronic stroke patients, which may be addressed with an ankle foot orthosis. Although there is reasonable evidence of effectiveness for ankle foot orthoses, user compliance is sometimes poor. This study investigated a new alternative to the ankle foot orthosis, the dorsiflex sock. Case description and methods: The dorsiflex sock was evaluated using an A-B single case experimental design. Two community-dwelling, chronic stroke patients with foot-drop participated in this study. Measures were selected to span the International Classification of Function, Disability and Health domains and user views on the dorsiflex sock were also collected. Findings and outcomes: The dorsiflex sock was not effective in improving participants’ walking symmetry, speed or energy expenditure. Participant 1 showed improvement in the distance he could walk in 6 min when using the dorsiflex sock, but this was in keeping with a general improvement trend over the course of this study. However, both participants viewed the dorsiflex sock positively and reported a positive effect on their walking. Conclusion: Despite positive user perceptions, the study found no clear evidence that dorsiflex sock is effective in improving foot-drop. Clinical relevance Although the dorsiflex sock offers an attractive alternative to an ankle foot orthosis, the case studies found no clear evidence of its efficacy. Clinicians should view this device with caution until further research becomes availabl

    Analysis of standing vertical jumps using a force platform

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    A force platform analysis of vertical jumping provides an engaging demonstration of the kinematics and dynamics of one-dimensional motion. The height of the jump may be calculated (1) from the flight time of the jump, (2) by applying the impulse–momentum theorem to the force–time curve, and (3) by applying the work–energy theorem to the force-displacement curve

    Role of cholinergic receptors in prefrontal activity of nonhuman primates during an oculomotor rule-based working memory task

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    The ability to flexibly react to our dynamic environment is a cardinal component of cognition and our human identity. Millions across the globe are affected by disorders of cognition, affecting their ability to live independently. Prefrontal cortex is required for optimal cognitive functioning, but its circuitry is often disrupted in conditions of impaired cognition. In addition, the cholinergic system is vital to optimal executive function, but this is disrupted in a number of conditions, including Alzheimer’s disease and schizophrenia. The actions of cholinergic receptors were explored in this project with local application of cholinergic compounds onto prefrontal neurons as rhesus monkeys performed a rule-based saccadic task that requires working memory maintenance. The antisaccade task is a useful probe of prefrontal cortex function that elicits errors in neuropsychiatric conditions. Some prefrontal neurons respond to different task aspects of the antisaccade task, e.g., discharging preferentially for one task rule over the other (pro- or antisaccades), and are thought to be involved in the circuitry for correct behavioural responses. Chapter 2 explored the effect of general stimulation of cholinergic receptors on rhesus PFC neuronal activity during antisaccade performance. In Chapter 3, newly developed cholinergic receptor subtype-specific compounds were utilized to examine the actions of muscarinic M1 receptor stimulation on prefrontal activity. Cortical oscillations are emerging as an important aspect of cognitive circuitry, such as during working memory maintenance. Chapter 4 examined the influence of local cholinergic receptor stimulation and blockade on the power of local field potential in different frequency bands. This project characterized the role of cholinergic receptors in prefrontal cortical neurons that were actively involved in cognitive circuitry. This and future work on the cholinergic influence on prefrontal cortex will provide insights into the altered cognitive functioning in Alzheimer’s disease and schizophrenia, which are also affected by disrupted cholinergic systems

    Effects of Fire Disturbance on Terrestrial Salamanders in Mixed-Coniferous Forests of the Klamath/Siskiyou Region of the Pacific Northwest

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    An effective examination of fire disturbance on floral and faunal components requires research that integrates knowledge from multiple disciplines to understand the pattern and process controls affecting organisms in a complex system. However, current fire effects research typically focuses on the pattern response of organisms or their habitats with little integration of the dynamic fire process that created the pattern. This dissertation integrates an analysis of the processes of fire disturbance with terrestrial salamander ecology in a fire-dependent forest ecosystem, Klamath Province, California, USA. In Chapter 1, I begin with a comprehensive review of disturbance ecology, focusing primarily on fire in forested ecosystems. Next, I discuss the current state of knowledge regarding effects of fire from the scale-extent of ground-dwelling vertebrate habitats through forested landscapes. Finally, I conclude with a oveview of my specific research objectives. In Chapter 2, I examine multi-scale vegetative responses to fire disturbance. Specifically, I characterize micro-and macro-scale forest structure and physical site characteristics across various fire disturbances. Finally, I discuss the concept of a fire refugium and examine potential fire effects in current and future forest dynamics of these critical environments. In Chapter 3, I characterize a fire exclusion legacy in a fire-dependent forest system. Specifically, I quantify fire exclusion legacy in stands perturbed by fire. Next, I estimate and characterize potential fuel structure and biomass associated with post-fire forest structure. To conclude, I explore the implications of a hypothetical legacy-mediated disturbance model on future fire severity and forest resilience. In Chapter 4, I explore faunal responses to fire disturbance through the examination of processes directly and indirectly affecting terrestrial salamander populations. I use classification tree models to compare various population metrics at the micro-and macro-scale. I also examine associations between animal presence and multi-scale forest structure, physical site characteristics, and fire disturbances. I conclude with a synthesis that examines the applicability of a salamander-based fire severity model (Chapter 5). Specifically, I examine the utility of predictive models to integrate fire processes and the effects of fire on terrestrial salamanders. Finally, I discuss the application of my results to future management and conservation of terrestrial salamanders

    On plane gravitational waves in real connection variables

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    We investigate using plane fronted gravitational wave space-times as model systems to study loop quantization techniques and dispersion relations. In this classical analysis, we start with planar symmetric space-times in the real connection formulation. We reduce via Dirac constraint analysis to a final form with one canonical pair and one constraint, equivalent to the metric and Einstein equations of plane-fronted with parallel rays waves. Due to the symmetries and use of special coordinates general covariance is broken. However, this allows us to simply express the constraints of the consistent system. A recursive construction of Dirac brackets results in non-local brackets, analogous to those of self-dual fields, for the triad variables chosen in this approach.Comment: v2: Matches published version, up to minor stylistic change
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