105 research outputs found
Improving waiting times in the Emergency Department
Waiting times in the Emergency Department cause considerable delays in care and in patient satisfaction. There are many moving parts to the ED visit with multiple providers delivering care for a single patient. Factors that have been shown to delay care in the ED have been broken down into input factors such as triaging, throughput factors during the visit, and output factors, which include discharge planning and available inpatient beds for admitted patients. Research has shown that throughput factors are an area of interest to decrease time spent in the ED that will lead to decrease waiting room times. In this Quality Improvement project, we will develop a systematic check in system with ED providers that will allow providers to identify any outstanding issues that may be delaying care or discharge. We hypothesize that this system will increase throughput in the ED by resolving any lab, radiology, or treatments that were overlooked. Reviewing the results of this QI project will allow us to see if we were effective in our timing of scheduled check-ins. Ultimately, this will reduce time spent in the waiting room by allowing more patients to be seen. In the era of the Affordable Care Act, more patients have access to affordable healthcare and will increase volume in the ED. This check-in system will allow more patients to be seen smoothly and in a timely manner that will improve and increase patient care and satisfaction in the ED
A Nanocryotron Ripple Counter Integrated with a Superconducting Nanowire Single-Photon Detector for Megapixel Arrays
Decreasing the number of cables that bring heat into the cryocooler is a
critical issue for all cryoelectronic devices. Especially, arrays of
superconducting nanowire single-photon detectors (SNSPDs) could require more
than readout lines. Performing signal processing operations at low
temperatures could be a solution. Nanocryotrons, superconducting nanowire
three-terminal devices, are good candidates for integrating sensing and
electronics on the same technological platform as SNSPDs in photon-counting
applications. In this work, we demonstrated that it is possible to read out,
process, encode, and store the output of SNSPDs using exclusively
superconducting nanowires. In particular, we present the design and development
of a nanocryotron ripple counter that detects input voltage spikes and converts
the number of pulses to an -digit value. The counting base can be tuned from
2 to higher values, enabling higher maximum counts without enlarging the
circuit. As a proof-of-principle, we first experimentally demonstrated the
building block of the counter, an integer- frequency divider with
ranging from 2 to 5. Then, we demonstrated photon-counting operations at
405\,nm and 1550\,nm by coupling an SNSPD with a 2-digit nanocryotron counter
partially integrated on-chip. The 2-digit counter operated in either base 2 or
base 3 with a bit error rate lower than and a maximum count
rate of s. We simulated circuit architectures for
integrated readout of the counter state, and we evaluated the capabilities of
reading out an SNSPD megapixel array that would collect up to counts
per second. The results of this work, combined with our recent publications on
a nanocryotron shift register and logic gates, pave the way for the development
of nanocryotron processors, from which multiple superconducting platforms may
benefit
Quantized conductance coincides with state instability and excess noise in tantalum oxide memristors
Tantalum oxide memristors can switch continuously from a low-conductance semiconducting to a high-conductance metallic state. At the boundary between these two regimes are quantized conductance states, which indicate the formation of a point contact within the oxide characterized by multistable conductance fluctuations and enlarged electronic noise. Here, we observe diverse conductance-dependent noise spectra, including a transition from 1/f 2 (activated transport) to 1/f (flicker noise) as a function of the frequency f, and a large peak in the noise amplitude at the conductance quantum GQ¼2e2/h, in contrast to
suppressed noise at the conductance quantum observed in other systems. We model the
stochastic behaviour near the point contact regime using Molecular Dynamics–Langevin
simulations and understand the observed frequency-dependent noise behaviour in terms of thermally activated atomic-scale fluctuations that make and break a quantum conductance channel. These results provide insights into switching mechanisms and guidance to device operating ranges for different applications
Quantized Nambu-Poisson Manifolds in a 3-Lie Algebra Reduced Model
We consider dimensional reduction of the Bagger-Lambert-Gustavsson theory to
a zero-dimensional 3-Lie algebra model and construct various stable solutions
corresponding to quantized Nambu-Poisson manifolds. A recently proposed Higgs
mechanism reduces this model to the IKKT matrix model. We find that in the
strong coupling limit, our solutions correspond to ordinary noncommutative
spaces arising as stable solutions in the IKKT model with D-brane backgrounds.
In particular, this happens for S^3, R^3 and five-dimensional Neveu-Schwarz
Hpp-waves. We expand our model around these backgrounds and find effective
noncommutative field theories with complicated interactions involving
higher-derivative terms. We also describe the relation of our reduced model to
a cubic supermatrix model based on an osp(1|32) supersymmetry algebra.Comment: 22 page
PLAYFUL ORNAMENTAL ART IN CHILDREN’S HEALING GARDENS
Os ornamentos também integram espaços de jardins de cura. No entanto, é essencial que os objetos artísticos comuniquem mensagens apropriadas para estímulos à cura interior. Nesse sentido, o objetivo deste artigo é compreender a leitura visual dos ornamentos de jardins de cura infantis. Particularmente, este estudo tem o interesse de revelar o potencial de identificabilidade dos ornamentos, sob o enfoque dos materiais, das silhuetas, das linhas de contornos e dos padrões de informação de objetos expostos nos jardins. A análise da linguagem visual dos objetos de cinco jardins de cura infantis, construídos entre 1999 e 2018 nos Estados Unidos, permitiu interpretar que os ornamentos também podem exibir silhuetas não identificáveis ou expressar fatores visuais negativos. Tal alerta pode ser útil para orientar a concepção de ornamentos de jardins destinados ao público específico de pacientes infantis com deficiências ou em processo de reabilitação.The ornaments also integrate healing gardens. However, it is essential that art objects communicate appropriate messages to stimulate inner healing. In this sense, this paper aims to understand the visual reading of ornaments in children’s healing gardens. In particular, this study is interested in revealing the identification potential of ornaments, focusing on materials, silhouettes, contour lines and patterns of information of objects exposed in gardens. The analysis of the visual language of objects from five children’s healing gardens, built between 1999 and 2018, in the United States, allowed us to interpret that the ornaments can also display non-identifiable silhouettes or express negative visual factors. Such an alert can be useful to guide the design of garden ornaments aimed at the specific public of children with disabilities or in the process of rehabilitation
Quinteto da Paraiba: Baker Guest Artist Residency With The Morton Schiff Jazz Ensemble and Samba Laranja
Genetic association study of QT interval highlights role for calcium signaling pathways in myocardial repolarization.
The QT interval, an electrocardiographic measure reflecting myocardial repolarization, is a heritable trait. QT prolongation is a risk factor for ventricular arrhythmias and sudden cardiac death (SCD) and could indicate the presence of the potentially lethal mendelian long-QT syndrome (LQTS). Using a genome-wide association and replication study in up to 100,000 individuals, we identified 35 common variant loci associated with QT interval that collectively explain ∼8-10% of QT-interval variation and highlight the importance of calcium regulation in myocardial repolarization. Rare variant analysis of 6 new QT interval-associated loci in 298 unrelated probands with LQTS identified coding variants not found in controls but of uncertain causality and therefore requiring validation. Several newly identified loci encode proteins that physically interact with other recognized repolarization proteins. Our integration of common variant association, expression and orthogonal protein-protein interaction screens provides new insights into cardiac electrophysiology and identifies new candidate genes for ventricular arrhythmias, LQTS and SCD
Hybrid CMOS/memristor circuits
Abstract — This is a brief review of recent work on the prospective hybrid CMOS/memristor circuits. Such hybrids combine the flexibility, reliability and high functionality of the CMOS subsystem with very high density of nanoscale thin film resistance switching devices operating on different physical principles. Simulation and initial experimental results demonstrate that performance of CMOS/memristor circuits for several important applications is well beyond scaling limits of conventional VLSI paradigm. I
Swords into ploughshares? China's Soft Power strategy in Southeast Asia and its challenges1
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