E
Elmar Lang
Researcher at University of Regensburg
Publications - 334
Citations - 4735
Elmar Lang is an academic researcher from University of Regensburg. The author has contributed to research in topics: Independent component analysis & Blind signal separation. The author has an hindex of 32, co-authored 332 publications receiving 4358 citations. Previous affiliations of Elmar Lang include University of Aveiro & University of Granada.
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Diffusion in supercooled water to 300 MPa.
TL;DR: Measurements of the self-diffusion coefficient in supercooled water to 300 MPa are reported, and striking anomalies are interpreted in terms of the proximity of a conjectured line of spinodallike stability limits in thesupercooled liquid.
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The Pressure Dependence of Self Diffusion in Supercooled Light and Heavy Water
TL;DR: In this paper, self-diffusion coefficients of H2O and D2O at pressures up to 400 MPa and temperatures down to 200 K were measured. And they were discussed in relation to the peculiar structure of the hydrogen bond network of cold water.
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Intronic microRNAs support their host genes by mediating synergistic and antagonistic regulatory effects
TL;DR: It is shown that intronic microRNAs tend to support their host genes by regulation of target gene expression with significantly correlated expression patterns, and this finding allows to extend the common practice of mapping large scale gene expression data to protein associated genes with functionality of co-expressed intronicmicroRNAs.
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Brain connectivity analysis: a short survey
TL;DR: This short survey the reviews recent literature on brain connectivity studies encompasses all forms of static and dynamic connectivity whether anatomical, functional, or effective, and suggests future studies have to bridge the gap between anatomical neuronal connections and related functional or effective connectivities.
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Anomalies of Liquid Water
TL;DR: In this paper, the authors investigated the properties of supercooled aqueous solutions and compared them with normal liquids, and concluded that the anomalies of water, for instance the density maximum of the liquid phase and the initial decrease in viscosity with pressure, are confined to the pT-range: T < 300 K, p ≲ 200 MPa.