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Wolfgang Wagner

Researcher at Vienna University of Technology

Publications -  2508
Citations -  138154

Wolfgang Wagner is an academic researcher from Vienna University of Technology. The author has contributed to research in topics: Large Hadron Collider & Top quark. The author has an hindex of 156, co-authored 2342 publications receiving 123391 citations. Previous affiliations of Wolfgang Wagner include University of Pennsylvania & University of Amsterdam.

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An assessment of remotely sensed surface and root zone soil moisture through active and passive sensors in northeast Asia

Eunsang Cho, +2 more
- 01 Apr 2015 - 
TL;DR: In this paper, the results of the surface soil moisture (SSM) products showed a reasonable agreement with the average correlation coefficient (R) values of 0.39, 0.42, and 0.53 for the National Snow and Ice Data Centre (NSIDC), Vrije Universiteit Amsterdam (VUA-NASA) AMSR-E, and ASCAT SSM datasets, respectively.
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Study of the material of the ATLAS inner detector for Run 2 of the LHC

Morad Aaboud, +2914 more
- 07 Dec 2017 - 
TL;DR: In this article, the material in the ATLAS inner detector is studied with several methods, using a low-luminosity √s=13 TeV pp collision sample corresponding to around 2.0 nb−1 collected in 2015 with ATLAS experiment at the LHC.
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First Measurement of the W-Boson Mass in Run II of the Tevatron

T. Aaltonen, +698 more
- 12 Oct 2007 - 
TL;DR: This is the most precise single measurement of the W-boson mass to date.
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Search for supersymmetry at √s= 8 TeV in final states with jets and two same-sign leptons or three leptons with the ATLAS detector

Georges Aad, +2922 more
- 06 Jun 2014 - 
TL;DR: In this article, the search for supersymmetry at root 8=8 TeV in final states with jets and two same sign leptons or three Leptons with the ATLAS detector.
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Reduction of the Number of Particles in the Stochastic Weighted Particle Method for the Boltzmann Equation

Sergej Rjasanow, +2 more
- 01 Sep 1998 - 
TL;DR: In this article, different ideas for reducing the number of particles in the stochastic weighted particle method for the Boltzmann equation are described and discussed, and the corresponding error bounds are obtained and numerical tests for the spatially homogeneous BoltZmann equation presented.