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Professor Dr.-Ing. Jürgen Müller

Address Gottfried Wilhelm Leibniz Universität Hannover
Institut für Erdmessung
Schneiderberg 50
30167 Hannover

Projects

As Applicant
- Current projects
  - Determination of Physical Heights via Time Transfer (Research Units)
- Completed projects
  - Die Satellitengradiometriemission GOCE - Theorie, technische Realisierung und wissenschaftliche Nutzung - (Publication Grants)
  - Integrierte Sensoranalyse am Beispiel des Satelliten CHAMP (Research Grants)
  - The Fennoscandian land uplift: A test and application area for GRACE (Research Grants)
  - Determination of the Fennoscandian Land Uplift and Mass Variations in Northern Europe from GRACE Data (Priority Programmes)
  - Earth Rotation and Global Dynamic Processes (Research Units)
  - Lunar Laser Ranging: Consistent modelling for geodetic and further scientific applications (Research Units)
  - A mobile absolute gravimeter based on atom interferometry for highly accurate point observations (Research Grants)
  - Barycentric Ephemeris (Research Units)
  - Lunar Reference Systems (Research Units)
As Leader
- Completed projects
  - Atomchip-basiertes Quantengravimeter (Major Research Instrumentation)
As Spokesperson
- Current projects
  - SFB 1464: Relativistic and quantum-based geodesy (TerraQ) (Collaborative Research Centres)
- Completed projects
  - FOR 584: Earth Rotation and Global Dynamic Processes (Research Units)
  - SFB 1128: Relativistic Geodesy and Gravimetry with Quantum Sensors - Modelling, Geo-Metrology and Future Technology (geo-Q) (Collaborative Research Centres)
As Participating Researcher
- Current projects
  - EXC 2123: QuantumFrontiers - Light and Matter at the Quantum Frontier (Clusters of Excellence (ExStra))
- Completed projects
  - EXC 201: QUEST - Centre for Quantum Engineering and Space-Time Research (Clusters of Excellence)
As Project Head
- Current projects
  - Quantum Gravimetry (Collaborative Research Centres)
  - New Measurement Concepts with Laser Interferometers (Collaborative Research Centres)
  - Terrestrial Clock Networks: Fundamental Physics and Applications (Collaborative Research Centres)
  - Relativistic Geodesy from Space Using Novel Measurement Concepts (Collaborative Research Centres)
  - Central Tasks of the Collaborative Research Centre (Collaborative Research Centres)
- Completed projects
  - Transportable quantum gravimeter (Collaborative Research Centres)
  - System studies for an optical gradiometer mission (Collaborative Research Centres)
  - Relativistic orbit modeling of satellite constellations (Collaborative Research Centres)
  - Clock network modeling for relativistic geodesy (Collaborative Research Centres)
  - Central Tasks (Collaborative Research Centres)
As Participating Person
- Completed projects
  - Development of the VLBI programme OCCAM for earth rotation parameter estimation in high temporal resolution (Research Grants)

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