Institution
University of Antwerp
Education•Antwerp, Belgium•
About: University of Antwerp is a education organization based out in Antwerp, Belgium. It is known for research contribution in the topics: Population & Large Hadron Collider. The organization has 16682 authors who have published 48837 publications receiving 1689748 citations. The organization is also known as: Universiteit Antwerpen & UAntwerp.
Papers published on a yearly basis
Papers
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TL;DR: In this paper, the authors study the technological and regulatory determinants of the diffusion of mobile telecommunications services in the European Union, using a logistic model of diffusion, and find that the transition from the analogue to the digital technology during the early 1990s, and the corresponding increase in spectrum capacity, had a major impact on the diffusion.
359 citations
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TL;DR: In this article, a new route to secondary organic aerosol formation from isoprene and its gas-phase oxidation products, methacrolein and methacrylic acid, was introduced, namely, multiphase acid-catalysed oxidation with hydrogen peroxide, a perfect analogue to atmospheric sulphate formation.
359 citations
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TL;DR: In this article, the role of information sharing in modulating the effect of financial access on income inequality in 48 African countries for the period 2004-2014 was examined, where information sharing is proxie...
Abstract: This study examines the role of information sharing in modulating the effect of financial access on income inequality in 48 African countries for the period 2004–2014. Information sharing is proxie...
358 citations
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University of Turin1, University of Milan2, University of Groningen3, Vrije Universiteit Brussel4, University of Tasmania5, Sapienza University of Rome6, Boston Children's Hospital7, Radboud University Nijmegen8, Aristotle University of Thessaloniki9, University of Antwerp10, City University London11
TL;DR: Results of this consensus paper illustrate how theory and empirical research have converged to produce a composite picture of brain topography, physiology, and function that establishes the role of the cerebellum in many aspects of emotional processing.
Abstract: Over the past three decades, insights into the role of the cerebellum in emotional processing have substantially increased. Indeed, methodological refinements in cerebellar lesion studies and major technological advancements in the field of neuroscience are in particular responsible to an exponential growth of knowledge on the topic. It is timely to review the available data and to critically evaluate the current status of the role of the cerebellum in emotion and related domains. The main aim of this article is to present an overview of current facts and ongoing debates relating to clinical, neuroimaging, and neurophysiological findings on the role of the cerebellum in key aspects of emotion. Experts in the field of cerebellar research discuss the range of cerebellar contributions to emotion in nine topics. Topics include the role of the cerebellum in perception and recognition, forwarding and encoding of emotional information, and the experience and regulation of emotional states in relation to motor, cognitive, and social behaviors. In addition, perspectives including cerebellar involvement in emotional learning, pain, emotional aspects of speech, and neuropsychiatric aspects of the cerebellum in mood disorders are briefly discussed. Results of this consensus paper illustrate how theory and empirical research have converged to produce a composite picture of brain topography, physiology, and function that establishes the role of the cerebellum in many aspects of emotional processing.
356 citations
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TL;DR: In this article, a coupled hydrodynamic, morphodynamic, and plant growth model is presented to simulate plant colonization and channel formation on an initially bare, fl at substrate, and apply this model to a tidal landscape.
Abstract: Vegetation is traditionally regarded to reduce the erosion of channels in both fl uvial and tidal landscapes. We present a coupled hydrodynamic, morphodynamic, and plant growth model that simulates plant colonization and channel formation on an initially bare, fl at substrate, and apply this model to a tidal landscape. The simulated landscape evolution is compared with aerial photos. Our results show that reduction of erosion by vegetation is only the local, on-site effect operating within static vegetation. Dynamic vegetation patches, which can expand or shrink, have a contrasting larger scale, off-site effect: they obstruct the fl ow, leading to flconcentration and channel erosion between laterally expanding vegetation patches. In contrast with traditional insights, our fi ndings imply that in tidal landscapes, which are colonized by denser vegetation, channels are formed with a higher channel drainage density. Hence this study demonstrates that feedbacks between vegetation, fl ow, and landform have an important control on landscape evolution.
356 citations
Authors
Showing all 16957 results
Name | H-index | Papers | Citations |
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Cornelia M. van Duijn | 183 | 1030 | 146009 |
John Hardy | 177 | 1178 | 171694 |
Mark Gerstein | 168 | 751 | 149578 |
Hannes Jung | 159 | 2069 | 125069 |
Rui Zhang | 151 | 2625 | 107917 |
Dirk Inzé | 149 | 647 | 74468 |
Walter Paulus | 149 | 809 | 86252 |
Robin Erbacher | 138 | 1721 | 100252 |
Rupert Leitner | 136 | 1201 | 90597 |
Alison Goate | 136 | 721 | 85846 |
Andrea Giammanco | 135 | 1362 | 98093 |
Maria Spiropulu | 135 | 1455 | 96674 |
Peter Robmann | 135 | 1438 | 97569 |
Michael Tytgat | 134 | 1449 | 94133 |
Matthew Herndon | 133 | 1732 | 97466 |