Projects (29)

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  • "International Max Planck Research School for Mathematical and Physical Aspects of Gravitation, Cosmology and Quantum Field Theory" IMPRS

    Kreimer, Dirk, Prof. (Theoretical Physics / Mathematical Physics)

    Duration of Project: 10/2016 - 09/2022

  • Neue Perspektiven in Stark Gekoppelten Systeme: Vorbereitung auf Quantensimulatoren

    Banerjee, Debasish, Dr. (Theoretical Physics / Quantum Field Theory beyond the Standard Model and String Theory)

    Duration of Project: 08/2018 - 11/2020

    Financer: DFG: Eigene Stelle (Sachbeihilfe)
  • Kolleg Mathematik Physik Berlin

    Kreimer, Dirk, Prof. (Theoretical Physics / Mathematical Physics)

    Duration of Project: 01/2016 - 12/2020

    The Kolleg Mathematik Physik Berlin is an interdisciplinary center at Humboldt University Berlin. Its community of research groups shares a mutual interest in Mathematics and Physics. Quantum field theory is their unifying theme, which connects to al ...

  • Algorithms for lattice QCD and related models

    Hasenbusch, Martin, (Theoretical Physics / Phenomenology of Elementary Particles beyond the Standard Model)

    Duration of Project: 10/2016 - 09/2018

    Financer: DFG: Eigene Stelle (Sachbeihilfe)

    Die Gitter-QCD ist die etablierte Methode für theoretische Berechnungen zur starken Wechselwirkung jenseits der Störungstheorie. Um qualitative Resultate zu erhalten, werden aufwendige Monte-Carlo-Simulationen durchgeführt. Die Gitter-QCD hat sich in ...

  • CRC 647/1: Conformal Symmetry, Supergravity, and the AdS/CFT Correspondence (SP A06)

    Plefka, Jan, Prof. Dr. (Collaborative Research Centre 555 'Complex Non-linear Processes')

    Duration of Project: 10/2006 - 09/2008

    Financer: DFG: Sonderforschungsbereich

    Die Anti-de Sitter/Conformal Field Theory-Korrespondenz verbindet Gravitationstheorien, die mit differentialgeometrischen Methoden behandelt werden können, mit Quantenfeldtheorien und der Struktur der Elementarteilchen. In diesem Projekt soll diese w ...

  • CRC 647/1: Evolution of Geometrical Structures in Classical and Quantum Cosmology (SP B05)

    Plefka, Jan, Prof. Dr. (Collaborative Research Centre 555 'Complex Non-linear Processes')

    Duration of Project: 10/2006 - 12/2008

    Financer: DFG: Sonderforschungsbereich

    In dem Projekt soll das Zusammenspiel zwischen String-Theorie, Schleifen-Quanten-Gravitation und kosmologischer Feldtheorie untersucht werden. Dabei spielen verschiedene Fragestellungen eine Rolle, die sowohl von der klassischen wie von der Quanten-S ...

  • CRC 647/2–3: Integrable Structures in the Gauge/String Theory Correspondence (SP B08/C05)

    Plefka, Jan, Prof. Dr. (Theoretical Physics / Quantum Field Theory beyond the Standard Model and String Theory)

    Duration of Project: 01/2009 - 12/2016

    Financer: DFG: Sonderforschungsbereich

    Establishing dualities between string and gauge theories is considered to be one of the most important directions of research in mathematical physics. Recent years have seen key advances in uncovering exactly integrable observables in the most promin ...

  • CRC 647/2–3: Tests and Applications of the AdS/CFT Correspondence (SP A08/C06)

    Plefka, Jan, Prof. Dr. (Theoretical Physics / Quantum Field Theory beyond the Standard Model and String Theory)

    Duration of Project: 01/2009 - 12/2016

    Financer: DFG: Sonderforschungsbereich

    The project is devoted to tests and applications of the correspondence between gauge field theories and string theories (AdS/CFT). The main emphasis will be on the following topics: Analysis of new relations between strings and observable quantities ...

  • DAAD PRIME Fellowship: Johannes Thürigen (2016–2018)

    Kreimer, Dirk, Prof. (Theoretical Physics / Mathematical Physics)

    Duration of Project: 09/2016 - 06/2018

    Financer: DAAD
  • EU: Scattering Amplitudes: From Geometry to EXperiment (SAGEX)

    Plefka, Jan, Prof. Dr. (Theoretical Physics / Quantum Field Theory beyond the Standard Model and String Theory)

    Duration of Project: 09/2018 - 08/2022

    Financer: Europäische Union (EU) - HU als Beteiligte

    Scattering amplitudes, describing the observations of high-energy collider experiments, provide a window into the fundamental structures predicted by relativistic quantum theories. By identifying and exploiting seemingly disparate concepts from abstr ...

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