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20 results on '"Wilson, E. C."'

1. Light Curve Models of Convective Common Envelopes

Author

Noughani, N., Nordhaus, J., Richmond, M., and Wilson, E. C.

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

Common envelopes are thought to be the main method for producing tight binaries in the universe as the orbital period shrinks by several orders of magnitude during this phase. Despite their importance for various evolutionary channels, direct detections are rare, and thus observational constraints on common envelope physics are often inferred from post-CE populations. Population constraints suggest that the CE phase must be highly inefficient at using orbital energy to drive envelope ejection for low-mass systems and highly efficient for high-mass systems. Such a dichotomy has been explained by an interplay between convection, radiation and orbital decay. If convective transport to the surface occurs faster than the orbit decays, the CE self-regulates and radiatively cools. Once the orbit shrinks such that convective transport is slow compared to orbital decay, a burst occurs as the release of orbital energy can be far in excess of that required to unbind the envelope. With the anticipation of first light for the Rubin Observatory, we calculate light curve models for convective common envelopes and provide the time evolution of apparent magnitudes for the Rubin filters. Convection imparts a distinct signature in the light curves and lengthens the timescales during which they are observable. Given Rubin limiting magnitudes, convective CEs should be detectable out to distances of ~8 Mpc at a rate of ~0.3 per day and provide an intriguing observational test of common envelope physics., Comment: Submitted to New Astronomy: 14 pages, 6 figures, 6 tables

Published
2024

2. Convection Reconciles the Difference in Efficiencies Between Low-Mass and High-Mass Common Envelopes

Author

Wilson, E. C. and Nordhaus, J.

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

The formation pathways for gravitational-wave merger sources are predicted to include common envelope (CE) evolution. Observations of high-mass post-common envelope binaries suggest that energy transfer to the envelope during the CE phase must be highly efficient. In contrast, observations of low-mass post-CE binaries indicate energy transfer during the CE phase must be highly inefficient. Convection, a process present in low-mass and high-mass stars, naturally explains this dichotomy. Using observations of Wolf-Rayet binaries, we study the effects of convection and radiative losses on the predicted final separations of high-mass common envelopes. Despite robust convection in massive stars, the effect is minimal as the orbit decays well before convection can transport the liberated orbital energy to the surface. In low-mass systems, convective transport occurs faster then the orbit decays, allowing the system to radiatively cool thereby lowering the efficiency. The inclusion of convection reproduces observations of low-mass and high-mass binaries and remains a necessary ingredient for determining outcomes of common envelopes., Comment: Accepted to MNRAS

Published
2022
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3. Convection and Spin-Up During Common Envelope Evolution: The Formation of Short-Period Double White Dwarfs

Author

Wilson, E. C. and Nordhaus, J.

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

The formation channels and predicted populations of double-white dwarfs (DWDs) are important because a subset will evolve to be gravitational-wave sources and/or progenitors of Type Ia supernovae. Given the observed population of short-period DWDs, we calculate the outcomes of common envelope evolution when convective effects are included. For each observed white dwarf in a DWD system, we identify all progenitor stars with an equivalent proto-WD core mass from a comprehensive suite of stellar evolution models. With the second observed white dwarf as the companion, we calculate the conditions under which convection can accommodate the energy released as the orbit decays, including (if necessary), how much the envelope must spin-up during the common envelope phase. The predicted post-CE final separations closely track the observed DWD orbital parameter space, further strengthening the view that convection is a key ingredient in common envelope evolution., Comment: Accepted to MNRAS

Published
2020
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4. The Role of Convection in Determining the Ejection Efficiency of Common Envelope Interactions

Author

Wilson, E. C. and Nordhaus, J.

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

A widely used method for parameterizing the outcomes of common envelopes (CEs) involves defining an ejection efficiency, $\bar{\alpha}_{\mathrm{eff}}$, that represents the fraction of orbital energy used to unbind the envelope as the orbit decays. Given $\bar{\alpha}_{\mathrm{eff}}$, a prediction for the post-CE orbital separation is possible with knowledge of the energy required to unbind the primary's envelope from its core. Unfortunately, placing observational constraints on $\bar{\alpha}_{\mathrm{eff}}$ is challenging as it requires knowledge of the primary's structure at the onset of the common envelope phase. Numerical simulations have also had difficulties reproducing post-CE orbital configurations as they leave extended, but still bound, envelopes. Using detailed stellar interior profiles, we calculate $\bar{\alpha}_{\mathrm{eff}}$ values for a matrix of primary-companion mass pairs when the primary is at maximal extent in its evolution. We find that the ejection efficiency is most sensitive to the properties of the surface-contact convective region (SCCR). In this region, the convective transport timescales are often short compared to orbital decay timescales, thereby allowing the star to effectively radiate orbital energy and thus lower $\bar{\alpha}_{\mathrm{eff}}$. The inclusion of convection in numerical simulations of CEs may aid ejection without the need for additional energy sources as the orbit must shrink substantially further before the requisite energy can be tapped to drive ejection. Additionally, convection leads to predicted post-CE orbital periods of less than a day in many cases, an observational result that has been difficult to reproduce in population studies where $\bar{\alpha}_{\mathrm{eff}}$ is taken to be constant. Finally, we provide a simple method to calculate $\bar{\alpha}_{\mathrm{eff}}$ if the properties of the SCCR are known., Comment: Accepted to MNRAS. 10 pages, 7 figures

Published
2018
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17. Cost‐effectiveness of intensive multifactorial treatment compared with routine care for individuals with screen‐detected Type 2 diabetes:Analysis of the ADDITION‐UK cluster‐randomized controlled trial

Author

Tao, L., Wilson, E. C. F., Wareham, N. J., Sandbæk, A., Rutten, G. E. H. M., Lauritzen, T., Khunti, K., Davies, M. J., Borch-Johnsen, K., Griffin, Simon J., and Simmons, R. K.

Subjects
health care economics and organizations
Abstract

Aims: To examine the short‐ and long‐term cost‐effectiveness of intensive multifactorial treatment compared with routine care among people with screen‐detected Type 2 diabetes. Methods: Cost–utility analysis in ADDITION‐UK, a cluster‐randomized controlled trial of early intensive treatment in people with screen‐detected diabetes in 69 UK general practices. Unit treatment costs and utility decrement data were taken from published literature. Accumulated costs and quality‐adjusted life years (QALYs) were calculated using ADDITION‐UK data from 1 to 5 years (short‐term analysis, n = 1024); trial data were extrapolated to 30 years using the UKPDS outcomes model (version 1.3) (long‐term analysis; n = 999). All costs were transformed to the UK 2009/10 price level. Results: Adjusted incremental costs to the NHS were £285, £935, £1190 and £1745 over a 1‐, 5‐, 10‐ and 30‐year time horizon, respectively (discounted at 3.5%). Adjusted incremental QALYs were 0.0000, – 0.0040, 0.0140 and 0.0465 over the same time horizons. Point estimate incremental cost‐effectiveness ratios (ICERs) suggested that the intervention was not cost‐effective although the ratio improved over time: the ICER over 10 years was £82 250, falling to £37 500 over 30 years. The ICER fell below £30 000 only when the intervention cost was below £631 per patient: we estimated the cost at £981. Conclusion: Given conventional thresholds of cost‐effectiveness, the intensive treatment delivered in ADDITION was not cost‐effective compared with routine care for individuals with screen‐detected diabetes in the UK. The intervention may be cost‐effective if it can be delivered at reduced cost.

Published
2015

18. Cost-effectiveness of intensive multifactorial treatment compared with routine care for individuals with screen-detected Type 2 diabetes: analysis of the ADDITION-UK cluster-randomized controlled trial

Author

HAG Diabetes, JC onderzoeksprogramma Cardiovasculaire Epidemiologie, Circulatory Health, Tao, L., Wilson, E. C. F., Wareham, N. J., Sandbaek, A., Rutten, G. E. H. M., Lauritzen, T., Khunti, K., Davies, M. J., Borch-Johnsen, K., Griffin, S. J., Simmons, R. K., HAG Diabetes, JC onderzoeksprogramma Cardiovasculaire Epidemiologie, Circulatory Health, Tao, L., Wilson, E. C. F., Wareham, N. J., Sandbaek, A., Rutten, G. E. H. M., Lauritzen, T., Khunti, K., Davies, M. J., Borch-Johnsen, K., Griffin, S. J., and Simmons, R. K.

Published
2015

20. Region partitioning of articular cartilage with streaming-potential-based parameters and indentation maps.

Author

Hamsayeh Abbasi Niasar E, Brenneman Wilson EC, Quenneville CE, Maly MR, and Li LP

Subjects
Animals, Swine, Knee Joint, Femur, Cartilage, Articular
Abstract

Articular cartilage exhibits site-specific tissue inhomogeneity, for which the tissue properties may continuously vary across the articular surface. To facilitate practical applications such as studying site-specific cartilage degeneration, the inhomogeneity may be approximated with several distinct region-wise variations, with one set of tissue properties for one region. A clustering method was previously developed to partition such regions using cartilage indentation-relaxation and thickness mapping instead of simply using surface geometry. In the present study, a quantitative parameter based on streaming potential measurement was introduced as an additional feature to assess the applicability of the methodology with independent datasets. Experimental data were collected from 24 sets of femoral condyles, extracted from fresh porcine stifle joints, through streaming potential mapping, automated indentation, and needle penetration tests. K-means clustering and Elbow method were used to find optimal region partitions. Consistent with previous findings, three regions were suggested for either lateral or medial condyle regardless of left or right joint. The region shapes were approximately triangular or trapezoidal, which was similar to what was found previously. Streaming potentials were confirmed to be region-dependent, but not significantly different among joints. The cartilage was significantly thicker in the medial than lateral condyles. The region areas were consistent among joints, and comparable to that found in a previous study. The present study demonstrated the capability of region partitioning methods with different variables, which may facilitate new applications whenever site-specific tissue properties must be considered., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2024
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