76 research outputs found

    Development of an animal-assisted activity program on a pediatric behavioral health unit

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    Animal-assisted activities (AAA), a form of animal-assisted interaction, have the potential to improve positive coping for youth with significant psychiatric symptoms admitted to acute behavioral health units. However, little is known regarding the appropriateness of an AAA program in short-term mental health hospital settings. The goal of this investigation is to describe and report on the feasibility and acceptability of embedding a canine-AAA program within the therapeutic programming of a pediatric behavioral health unit. Both patient participants and unit staff completed quantitative and qualitative measures. Outcomes yielded preliminary data suggesting AAA was feasible and acceptable to patients and unit staff. Initial efficacy outcomes demonstrated decreases in subjective distress. Qualitative data provided areas for further refinement of the AAA program

    A giant exoplanet orbiting a very-low-mass star challenges planet formation models

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    Surveys have shown that super-Earth and Neptune-mass exoplanets are more frequent than gas giants around low-mass stars, as predicted by the core accretion theory of planet formation. We report the discovery of a giant planet around the very-low-mass star GJ 3512, as determined by optical and near-infrared radial-velocity observations. The planet has a minimum mass of 0.46 Jupiter masses, very high for such a small host star, and an eccentric 204-day orbit. Dynamical models show that the high eccentricity is most likely due to planet-planet interactions. We use simulations to demonstrate that the GJ 3512 planetary system challenges generally accepted formation theories, and that it puts constraints on the planet accretion and migration rates. Disk instabilities may be more efficient in forming planets than previously thought

    Misfit Layer Compounds and Ferecrystals: Model Systems for Thermoelectric Nanocomposites

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    A basic summary of thermoelectric principles is presented in a historical context, following the evolution of the field from initial discovery to modern day high-zT materials. A specific focus is placed on nanocomposite materials as a means to solve the challenges presented by the contradictory material requirements necessary for efficient thermal energy harvest. Misfit layer compounds are highlighted as an example of a highly ordered anisotropic nanocomposite system. Their layered structure provides the opportunity to use multiple constituents for improved thermoelectric performance, through both enhanced phonon scattering at interfaces and through electronic interactions between the constituents. Recently, a class of metastable, turbostratically-disordered misfit layer compounds has been synthesized using a kinetically controlled approach with low reaction temperatures. The kinetically stabilized structures can be prepared with a variety of constituent ratios and layering schemes, providing an avenue to systematically understand structure-function relationships not possible in the thermodynamic compounds. We summarize the work that has been done to date on these materials. The observed turbostratic disorder has been shown to result in extremely low cross plane thermal conductivity and in plane thermal conductivities that are also very small, suggesting the structural motif could be attractive as thermoelectric materials if the power factor could be improved. The first 10 compounds in the [(PbSe)1+δ]m(TiSe2)n family (m, n ≤ 3) are reported as a case study. As n increases, the magnitude of the Seebeck coefficient is significantly increased without a simultaneous decrease in the in-plane electrical conductivity, resulting in an improved thermoelectric power factor
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