3,248 research outputs found
A Carbon Nanotube Based Nanorelay
We investigate the operational characteristics of a nanorelay based on a
conducting carbon nanotube placed on a terrace in a silicon substrate. The
nanorelay is a three terminal device that acts as a switch in the GHz regime.
Potential applications include logic devices, memory elements, pulse
generators, and current or voltage amplifiers.Comment: 4 pages, 3 figure
R&D Investment Link to Profitability: A Pharmaceutical Industry Evaluation
This paper is an in depth analysis of the influence that investment into research and development has on a firm’s profitability in the pharmaceutical industry in the United States. The pharmaceutical industry is chosen due to its high intensity of research and development expenditures. The top 16 companies in the pharmaceutical industry are analyzed through regression analysis. The argument made is that as more funds are invested into research and development a firm in the pharmaceutical industry will experience a higher market value. Theoretically as firms spend more on research and development they are increasing the likelihood of innovation, which will cause growth in the company. This study finds a positive and significant relationship between research and development expenditures and market value in the pharmaceutical industry
Effects of Cutoff Functions of Tersoff Potentials on Molecular Dynamics Simulations of Thermal Transport
Past molecular dynamics studies of thermal transport have predominantly used
Stillinger-Weber potentials. As materials continuously shrink, their properties
increasingly depend on defect and surface effects. Unfortunately,
Stillinger-Weber potentials are best used for diamond-cubic-like bulk crystals.
They cannot represent the energies of many metastable phases, nor can they
accurately predict the energetics of defective and surface regions. To study
nanostructured materials, where these regions can dominate thermal transport,
the accuracy of Tersoff potentials in representing these structures is more
desirable. Based upon an analysis of thermal transport in a GaN system, we
demonstrate that the cutoff function of the existing Tersoff potentials may
lead to problems in determining the thermal conductivity. To remedy this issue,
improved cutoff schemes are proposed and evaluated
Effects of surface forces and phonon dissipation in a three-terminal nano relay
We have performed a theoretical analysis of the operational characteristics
of a carbon-nanotube-based three-terminal nanorelay. We show that short range
and van der Waals forces have a significant impact on the characteristics of
the relay and introduce design constraints. We also investigate the effects of
dissipation due to phonon excitation in the drain contact, which changes the
switching time scales of the system, decreasing the longest time scale by two
orders of magnitude. We show that the nanorelay can be used as a memory element
and investigate the dynamics and properties of such a device
Power-up: a reanalysis of 'power failure' in neuroscience using mixture modelling
Evidence for endemically low statistical power has recently cast neuroscience findings into doubt. If low statistical power plagues neuroscience, this reduces confidence in reported effects. However, if statistical power is not uniformly low, such blanket mistrust might not be warranted. Here, we provide a different perspective on this issue, analysing data from an influential paper reporting a median power of 21% across 49 meta-analyses (Button et al., 2013). We demonstrate, using Gaussian mixture modelling, that the sample of 730 studies included in that analysis comprises several subcomponents; therefore the use of a single summary statistic is insufficient to characterise the nature of the distribution. We find that statistical power is extremely low for studies included in meta-analyses that reported a null result; and that it varies substantially across subfields of neuroscience, with particularly low power in candidate gene association studies. Thus, while power in neuroscience remains a critical issue, the notion that studies are systematically underpowered is not the full story: low power is far from a universal problem. SIGNIFICANCE STATEMENT: Recently, researchers across the biomedical and psychological sciences have become concerned with the reliability of results. One marker for reliability is statistical power: the probability of finding a statistically significant result, given that the effect exists. Previous evidence suggests that statistical power is low across the field of neuroscience. Our results present a more comprehensive picture of statistical power in neuroscience: on average, studies are indeed underpowered-some very seriously so-but many studies show acceptable or even exemplary statistical power. We show that this heterogeneity in statistical power is common across most subfields in neuroscience (psychology, neuroimaging, etc.). This new, more nuanced picture of statistical power in neuroscience could affect not only scientific understanding, but potentially policy and funding decisions for neuroscience research
An algorithm for series expansions based on hierarchical rate equations
We propose a computational method to obtain series expansions in powers of
time for general dynamical systems described by a set of hierarchical rate
equations. The method is generally applicable to problems in both equilibrium
and nonequilibrium statistical mechanics such as random sequential adsorption,
diffusion-reaction dynamics, and Ising dynamics. New result of random
sequential adsorption of dimers on a square lattice is presented.Comment: LaTeX, 9 pages including 1 figur
Anaerobic bacteria commonly colonize the lower airways of intubated ICU patients
ObjectivesTo investigate respiratory tract colonization by aerobic and anaerobic bacteria in mechanically ventilated patients.MethodsBacterial colonization of the stomach and the respiratory tract was qualitatively and quantitatively analyzed over time in 41 consecutive mechanically ventilated patients in a Swedish intensive care unit (ICU), with special emphasis on elucidation of the role of anaerobic bacteria in the lower respiratory tract. Samples were taken from the oropharynx, gastric juice, subglottic space and trachea within 24 h (median 14 h) of intubation, and then every third day until day 18 and every fifth day until day 33.ResultsThe patients were often heavily colonized with microorganisms not considered to belong to a healthy normal oropharyngeal and gastric flora on admission to the ICU. A majority harbored enterococci, coagulase-negative staphylococci and Candida spp. in at least one site on day 1. Anaerobic bacteria, mainly peptostreptococci and Prevotella spp., were isolated from subglottic and/or tracheal secretions in 59% of the patients. Different routes of tracheal colonization for different groups of microorganisms were found. Primary or concomitant colonization of the oropharynx with staphylococci, enterococci, enterobacteria and Candida was often seen, while Pseudomonas spp., other non-fermenting Gram-negative rods and several anaerobic species often primarily colonized the trachea, indicating exogenous or direct gastrointestinal routes of colonization.ConclusionsMechanically ventilated patients were heavily colonized in their lower airways by potential pathogenic microorganisms, including a high load of anaerobic bacteria. Different routes of colonization were shown for different species
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