Publications

What is a Publication?
1687 Publications visible to you, out of a total of 1687

Abstract (Expand)

ModelTest-NG is a reimplementation from scratch of jModelTest and ProtTest, two popular tools for selecting the best-fit nucleotide and amino acid substitution models, respectively. ModelTest-NG is one to two orders of magnitude faster than jModelTest and ProtTest but equally accurate and introduces several new features, such as ascertainment bias correction, mixture, and free-rate models, or the automatic processing of single partitions. ModelTest-NG is available under a GNU GPL3 license at https://github.com/ddarriba/modeltest , last accessed September 2, 2019.

Authors: Diego Darriba, David Posada, Alexey M Kozlov, Alexandros Stamatakis, Benoit Morel, Tomas Flouri

Date Published: 21st Aug 2019

Publication Type: Journal

Abstract

Not specified

Authors: Mehwish Fatima, Mark-Christoph Müller

Date Published: 10th Aug 2019

Publication Type: InProceedings

Abstract

Not specified

Authors: Neil J. Bruce, Gaurav K. Ganotra, Stefan Richter, Rebecca C. Wade

Date Published: 5th Aug 2019

Publication Type: Journal

Abstract

Not specified

Authors: Federico López, Benjamin Heinzerling, Michael Strube

Date Published: 2nd Aug 2019

Publication Type: InProceedings

Abstract

Not specified

Authors: C J Horowitz, A Arcones, B Côté, I Dillmann, W Nazarewicz, I U Roederer, H Schatz, A Aprahamian, D Atanasov, A Bauswein, T C Beers, J Bliss, M Brodeur, J A Clark, A Frebel, F Foucart, C J Hansen, O Just, A Kankainen, G C McLaughlin, J M Kelly, S N Liddick, D M Lee, J Lippuner, D Martin, J Mendoza-Temis, B D Metzger, M R Mumpower, G Perdikakis, J Pereira, B W O’Shea, R Reifarth, A M Rogers, D M Siegel, A Spyrou, R Surman, X Tang, T Uesaka, M Wang

Date Published: 1st Aug 2019

Publication Type: Journal

Abstract (Expand)

Context A radial temperature difference together with an inhomogeneous radial electric field gradient is applied to a dielectric fluid confined in a vertical cylindrical annulus inducing thermal electro-hydrodynamic convection. Aims Identification of the stability of the flow and hence of the line of marginal stability separating stable laminar free (natural) convection from thermal electro-hydrodynamic convection, its flow structures, pattern formation and critical parameters. Methods Combination of different measurement techniques, namely the shadowgraph method and particle image velocimetry, as well as numerical simulation are used to qualify/quantify the flow. Results We identify the transition from stable laminar free convection to thermal electro-hydrodynamic convective flow in a wide range of Rayleigh number and electric potential. The line of marginal stability found confirms results from linear stability analysis. The flow after first transition forms a structure of axially aligned stationary columnar modes. We experimentally confirm critical parameters resulting from linear stability analysis and we show numerically an enhancement of heat transfer.

Authors: Torsten Seelig, Antoine Meyer, Philipp Gerstner, Martin Meier, Marcel Jongmanns, Martin Baumann, Vincent Heuveline, Christoph Egbers

Date Published: 1st Aug 2019

Publication Type: Journal

Abstract

Not specified

Authors: Benjamin Heinzerling, Michael Strube

Date Published: 28th Jul 2019

Publication Type: InProceedings

Powered by
(v.1.16.0)
Copyright © 2008 - 2024 The University of Manchester and HITS gGmbH