Institut für Theoretische Physik
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Institute for Theoretical Physics (ITP)
Institute for Theoretical Physics (ITP)
Institute for Theoretical Physics (ITP)
Research Groups at the Institute for Theoretical Physics

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research [2019/02/08 10:11] asteriadisresearch [2021/02/15 15:06] (current) – [Gudrun Heinrich] gudrun
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 ====== Research Groups at the Institute for Theoretical Physics ====== ====== Research Groups at the Institute for Theoretical Physics ======
-The Institute for Theoretical Physics (ITP) consists of four research groups.+The Institute for Theoretical Physics (ITP) consists of five research groups.
 Their activities are described below.  Their activities are described below. 
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 <a href="https://www.itp.kit.edu/research/gieseke"> <a href="https://www.itp.kit.edu/research/gieseke">
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-====== Stefan Gieseke ======+===== Stefan Gieseke =====
  
 Research interests: The simulation of exclusive final states at colliders with Monte Carlo Methods.  Our research aims at the best possible description of all possible final states, first and foremost at the Large Hadron Collider but possibly also for collisions of electrons and positrons or hadrons when they are hit by cosmic particles at very high energies.  We improve the standard model description, mostly of the strong interaction (Quantum Chromodynamics, QCD) with systematic perturbative methods or with models for strong hadronic interactions. Research interests: The simulation of exclusive final states at colliders with Monte Carlo Methods.  Our research aims at the best possible description of all possible final states, first and foremost at the Large Hadron Collider but possibly also for collisions of electrons and positrons or hadrons when they are hit by cosmic particles at very high energies.  We improve the standard model description, mostly of the strong interaction (Quantum Chromodynamics, QCD) with systematic perturbative methods or with models for strong hadronic interactions.
  
 [[:research:gieseke|Detailed information]] [[:research:gieseke|Detailed information]]
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 +<a href="https://www.itp.kit.edu/research/heinrich">
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 +===== Gudrun Heinrich =====
 +
 +Research interests: Exploring the Higgs sector:
 +finding hints about New Physics through precision measurements requires
 +precision calculations, which we do both within and beyond the Standard Model.
 +We combine Effective Field Theory parametrisations of BSM
 +effects with higher order corrections and perform studies of anomalous couplings in the Yukawa and gauge boson sectors.
 +Scattering amplitudes: we aim to largely automate the calculation of scattering amplitudes beyond one loop. An important aspect here is the numerical evaluation of multi-loop Feynman
 +diagrams, as well as a better understanding of their mathematical structure.
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 +[[:research:heinrich|Detailed information]]
  
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 <a href="https://www.itp.kit.edu/research/klinkhamer"> <a href="https://www.itp.kit.edu/research/klinkhamer">
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-====== Frans R. Klinkhamer ======+===== Frans R. Klinkhamer =====
  
 Research interests: Fundamental aspects of quantum field theory, Research interests: Fundamental aspects of quantum field theory,
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 <a href="https://www.itp.kit.edu/research/muehlleitner"> <a href="https://www.itp.kit.edu/research/muehlleitner">
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-====== Milada M. Mühlleitner ======+===== Milada M. Mühlleitner =====
  
 Research interests: Collider physics, phenomenological investigations of models beyond the Research interests: Collider physics, phenomenological investigations of models beyond the
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 <a href="https://www.itp.kit.edu/research/zeppenfeld"> <a href="https://www.itp.kit.edu/research/zeppenfeld">
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-====== Dieter Zeppenfeld ======+===== Dieter Zeppenfeld =====
  
 Research interests: Collider physics; QCD corrections; effective field theories; models of electroweak symmetry breaking; phenomenological investigations of mixed QCD/electroweak processes in hadronic collisions, e.g. vector boson scattering, weak boson pair production, etc. Research interests: Collider physics; QCD corrections; effective field theories; models of electroweak symmetry breaking; phenomenological investigations of mixed QCD/electroweak processes in hadronic collisions, e.g. vector boson scattering, weak boson pair production, etc.
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