Andreas Ketterer

Teacher for physics and math

Freiburg, Baden-Württemberg, Germany

About

Experience

  • Lehrer für Mathematik/Physik at Theodor-Heuss-Gymnasium Schopfheim (THG)
    Sep 2025 - Present · 11 mos

  • Studienreferendar at Land Baden-Württemberg
    Jan 2024 - Jul 2025 · 1 yr 7 mos

  • Scientist in Quantum Information at Fraunhofer IAF
    Oct 2021 - Sep 2023 · 2 yrs

    Member of the Quantum Information Group and involved into the project QORA - Quantum Optimization with Resielient Algorithms - as part of the Competence Center Quantum Computing Baden-Württemberg.

  • Postdoctoral Scientist at Albert-Ludwigs-Universität Freiburg im Breisgau
    Jan 2019 - Sep 2021 · 2 yrs 9 mos

    Involved in the following projects: 1) Certification of multiparticle entanglement - characterization of classes of multiparticle entanglement with moments of randomized measurements - determination of the measurement resources required for a confident estimation fo the respective moments - characterization of high-dimensional bipartite entanglement using moments of randomized measurements - detection of bound entanglement in this framework 2) Quantum computation - studying the role of entanglement and complexity in different classes of stochastic quantum computaitons - classification of stochastic quantum computations in terms of moments of randomized measurements - influence of realistic noise and gate errors on the statistics of the output states 2) Open systems and quantum thermodynamics - Non-Markovianity in the Caldeirra-Leggett model - Entanglement and entropy production

  • Postdoctoral Scientist at Universität Siegen
    Jan 2017 - Dec 2018 · 2 yrs

    Involved in the following projects: 1) Entanglement detection and characterization - characterizing multipartite entanglement with spherical designs and moments of randomized mesurements 2) Bell-Nonlocality - definition and characterization of supra-quantum correlations in continuous variables 3) Spatial entanglement of photon pairs - study of the production of entangled photon pairs using the Talbot effect, i.e., near-field interference