13,383 research outputs found
Frontostriatal Maturation Predicts Cognitive Control Failure to Appetitive Cues in Adolescents
Adolescent risk-taking is a public health issue that increases the odds of poor lifetime outcomes. One factor thought to influence adolescents' propensity for risk-taking is an enhanced sensitivity to appetitive cues, relative to an immature capacity to exert sufficient cognitive control. We tested this hypothesis by characterizing interactions among ventral striatal, dorsal striatal, and prefrontal cortical regions with varying appetitive load using fMRI scanning. Child, teen, and adult participants performed a go/no-go task with appetitive (happy faces) and neutral cues (calm faces). Impulse control to neutral cues showed linear improvement with age, whereas teens showed a nonlinear reduction in impulse control to appetitive cues. This performance decrement in teens was paralleled by enhanced activity in the ventral striatum. Prefrontal cortical recruitment correlated with overall accuracy and showed a linear response with age for no-go versus go trials. Connectivity analyses identified a ventral frontostriatal circuit including the inferior frontal gyrus and dorsal striatum during no-go versus go trials. Examining recruitment developmentally showed that teens had greater between-subject ventral-dorsal striatal coactivation relative to children and adults for happy no-go versus go trials. These findings implicate exaggerated ventral striatal representation of appetitive cues in adolescents relative to an intermediary cognitive control response. Connectivity and coactivity data suggest these systems communicate at the level of the dorsal striatum differentially across development. Biased responding in this system is one possible mechanism underlying heightened risk-taking during adolescence
Computing Fast and Reliable Gravitational Waveforms of Binary Neutron Star Merger Remnants
Gravitational waves have been detected from the inspiral of a binary
neutron-star, GW170817, which allowed constraints to be placed on the neutron
star equation of state. The equation of state can be further constrained if
gravitational waves from a post-merger remnant are detected. Post-merger
waveforms are currently generated by numerical-relativity simulations, which
are computationally expensive. Here we introduce a hierarchical model trained
on numerical-relativity simulations, which can generate reliable post-merger
spectra in a fraction of a second. Our spectra have mean fitting factors of
0.95, which compares to fitting factors of 0.76 and 0.85 between different
numerical-relativity codes that simulate the same physical system. This method
is the first step towards generating large template banks of spectra for use in
post-merger detection and parameter estimation.Comment: Submitted to PRL. 6 pages, 4 figure
Uncertainties of predictions from parton distribution functions II: the Hessian method
We develop a general method to quantify the uncertainties of parton
distribution functions and their physical predictions, with emphasis on
incorporating all relevant experimental constraints. The method uses the
Hessian formalism to study an effective chi-squared function that quantifies
the fit between theory and experiment. Key ingredients are a recently developed
iterative procedure to calculate the Hessian matrix in the difficult global
analysis environment, and the use of parameters defined as components along
appropriately normalized eigenvectors. The result is a set of 2d Eigenvector
Basis parton distributions (where d=16 is the number of parton parameters) from
which the uncertainty on any physical quantity due to the uncertainty in parton
distributions can be calculated. We illustrate the method by applying it to
calculate uncertainties of gluon and quark distribution functions, W boson
rapidity distributions, and the correlation between W and Z production cross
sections.Comment: 30 pages, Latex. Reference added. Normalization of Hessian matrix
changed to HEP standar
Beyond Options
Scholars and policymakers now debate reforms that would prevent a bankruptcy filing from being a moment that forces valuation of the firm, crystallization of claims against it, and elimination of junior stakeholders’ interest in future appreciation in firm value. These reforms have many names, ranging from Relative Priority to Redemption Option Value. Much of the debate centers on the extent to which reform would protect the non-bankruptcy options of junior stakeholders, or harm the non-bankruptcy options of senior lenders. We argue that this focus on options misplaced. Protecting options is neither necessary nor sufficient for advancing the goal of a well-functioning bankruptcy system. What is needed is a regime that cashes out the rights of junior stakeholders with minimal judicial involvement. To illustrate, we propose an “automatic bankruptcy procedure” that gives senior creditors an option to restructure the firm’s debt or sell its assets at any time after a contractual default. Under this procedure, restructuring occurs in bankruptcy, but sales do not. Sales are either subject to warrants (which give junior stakeholders a claim on future appreciation) or are subject to judicial appraisal (which forces senior lenders to compensate junior stakeholders if the sale price was too low). Our proposal can be seen as an effort to design a formalized restructuring procedure that borrows from traditional state law governing corporate-control transactions. We show that this procedure minimizes core problems of current law – fire sales that harm junior stakeholders, delay that harms senior lenders, and the uncertainties generated by judicial valuation, which are exploited by all parties
Impacts of Forage Cropping Decisions on Feed-Flows in Cool- Temperate Grazing Systems
Intensive cool-temperate grasslands often rely on adding forage crops to help supply feed when pasture growth is limited by cool temperatures and low sunlight. We tested the impacts of using single- or multi-graze crops to alter feed supply in either summer/autumn or winter on productivity in red deer farming systems in a cool-temperate environment. The choice of single-graze or multi-graze crops to provide forage in deer grazing systems had an impact on the feed flows and the amount of pasture available, with multi-graze crops supplying more feed during the dry summer months while single-graze crops supplying more feed during the cool winter months. The limited growth rates of young red deer, and the late calving of hinds meant that pasture covers could be low during the late winter and early spring without compromising animal production. Overall, the use of a multi-graze crop, especially when used early in autumn to promote weaner liveweight gain, increased overall productivity by 5% and increased feed conversion efficiency by 2.5% in the venison production system
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