Institution
Leibniz University of Hanover
Education•Hanover, Niedersachsen, Germany•
About: Leibniz University of Hanover is a education organization based out in Hanover, Niedersachsen, Germany. It is known for research contribution in the topics: Finite element method & Computer science. The organization has 14283 authors who have published 29845 publications receiving 682152 citations.
Papers published on a yearly basis
Papers
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Centre national de la recherche scientifique1, Leibniz University of Hanover2, University of Florence3, National Physical Laboratory4, German National Metrology Institute5, Instituto Superior Técnico6, European Space Research and Technology Centre7, California Institute of Technology8, University of Western Australia9, University of Ulm10, University of Toulouse11, National Research Council12, University of Paris13, Stanford University14, Harvard University15, University of Erlangen-Nuremberg16, University of Birmingham17, University of Pisa18, University of Bremen19, Polytechnic University of Milan20, University of Hamburg21
TL;DR: The Search for Anomalous Gravitation using Atomic Sensors (SAGAS) project as mentioned in this paper aims at flying highly sensitive atomic sensors (optical clock, cold atom accelerometer, optical link) on a solar system escape trajectory in the 2020 to 2030 time-frame.
Abstract: We summarise the scientific and technological aspects of the Search for Anomalous Gravitation using Atomic Sensors (SAGAS) project, submitted to ESA in June 2007 in response to the Cosmic Vision 2015–2025 call for proposals. The proposed mission aims at flying highly sensitive atomic sensors (optical clock, cold atom accelerometer, optical link) on a Solar System escape trajectory in the 2020 to 2030 time-frame. SAGAS has numerous science objectives in fundamental physics and Solar System science, for example numerous tests of general relativity and the exploration of the Kuiper belt. The combination of highly sensitive atomic sensors and of the laser link well adapted for large distances will allow measurements with unprecedented accuracy and on scales never reached before. We present the proposed mission in some detail, with particular emphasis on the science goals and associated measurements and technologies.
130 citations
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TL;DR: Fault-related folding has been analyzed intensively over the last 140 years as mentioned in this paper, where the authors divide the folds according to the way the faults and the folds form; that is into detachment, fault-bend, and fault-propagation folds.
130 citations
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TL;DR: In this article, a large-scale empirical study with over 800 participants, the authors identify three different subgroups of Millennials: the Net Generation, the Digital Generation, and digital natives.
Abstract: Purpose – Millennials, the Net Generation, and digital natives all represent the same, fervently discussed phenomenon, especially in the education sciences. As the terms suggest, the main idea behind this phenomenon is that the younger generation embraces new media far more comprehensively than the older generations. However, the literature is mostly based on anecdotal evidence. To date, surprisingly little empirical research exists on the media use of the “Internet Generation”. In this paper, the authors aim to partially close this gap. In doing so, they focus especially on the use of social media.Design/methodology/approach – Active media use is a key element of social software and Web 2.0 and has the potential to affect the media industry on a fundamental level. Using a large‐scale empirical study with over 800 participants, the authors identify three different subgroups of Millennials.Findings – The results indicate that, although participation in and identification with social media is generally high...
130 citations
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TL;DR: In this review article, insights are provided into the different applications of infrared spectroscopy for bioprocess monitoring and the complex data interpretation.
Abstract: One of the major aims of bioprocess engineering is the real-time monitoring of important process variables. This is the basis of precise process control and is essential for high productivity as well as the exact documentation of the overall production process. Infrared spectroscopy is a powerful analytical technique to analyze a wide variety of organic compounds. Thus, infrared sensors are ideal instruments for bioprocess monitoring. The sensors are non-invasive, have no time delay due to sensor response times, and have no influence on the bioprocess itself. No sampling is necessary, and several components can be analyzed simultaneously. In general, the direct monitoring of substrates, products, metabolites, as well as the biomass itself is possible. In this review article, insights are provided into the different applications of infrared spectroscopy for bioprocess monitoring and the complex data interpretation. Different analytical techniques are presented as well as example applications in different areas.
130 citations
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130 citations
Authors
Showing all 14621 results
Name | H-index | Papers | Citations |
---|---|---|---|
Hyun-Chul Kim | 176 | 4076 | 183227 |
Peter Zoller | 134 | 734 | 76093 |
J. R. Smith | 134 | 1335 | 107641 |
Chao Zhang | 127 | 3119 | 84711 |
Benjamin William Allen | 124 | 807 | 87750 |
J. F. J. van den Brand | 123 | 777 | 93070 |
J. H. Hough | 117 | 904 | 89697 |
Hans-Peter Seidel | 112 | 1213 | 51080 |
Karsten Danzmann | 112 | 754 | 80032 |
Bruce D. Hammock | 111 | 1409 | 57401 |
Benno Willke | 109 | 508 | 74673 |
Roman Schnabel | 108 | 589 | 71938 |
Jan Harms | 108 | 447 | 76132 |
Hartmut Grote | 108 | 434 | 72781 |
Ik Siong Heng | 107 | 423 | 71830 |