Katrin Heitmann is a German-American cosmologist whose research involves large-scale computer simulations of the universe, focused on understanding its distribution of matter and rate of expansion.[1][2][3] She is a Deputy Division Director of High Energy Physics at the Argonne National Laboratory, the former spokesperson of the LSST Dark Energy Science Collaboration,[4] a senior associate of the Kavli Institute for Cosmological Physics at the University of Chicago, and an affiliate of the Northwestern-Argonne Institute of Science and Engineering at Northwestern University.[5]

Education and career

Heitmann has a 2000 Ph.D. from the Technical University of Dortmund.[6] Her dissertation, Non-equilibrium dynamics of symmetry breaking and gauge fields in quantum field theory, was supervised by Jürgen Baacke.[7] She became a researcher at the Los Alamos National Laboratory from 2000 to 2011, when she moved to her present position at Argonne.[6]

Recognition

In 2023, she was elected as a Fellow of the American Physical Society (APS), after a nomination from the APS Division of Astrophysics, "for pioneering the development of innovative and novel techniques in cosmic simulations for the era of precision cosmology, and for providing sustained scientific leadership, specifically within LSST DESC".[8]

References

  1. Lipkin, Michael (June 18, 2012), "Argonne's Supercomputer One of World's Fastest", WTTW News, retrieved 2023-10-28
  2. Dillow, Clay (November 8, 2012), "Inside The Largest Simulation Of The Universe Ever Created", Popular Science, retrieved 2023-10-28
  3. Jones, Katie Elyce (January 14, 2016), "Exploring the dark universe with supercomputers", Symmetry, Fermilab and SLAC, retrieved 2023-10-28
  4. "Katrin Heitmann", Profile, Argonne National Laboratory, retrieved 2023-10-28
  5. "Katrin Heitmann", People, Kavli Institute for Cosmological Physics, retrieved 2023-10-28
  6. 1 2 "Katrin Heitmann", INSPIRE-HEP, retrieved 2023-10-28
  7. Heitmann, Katrin (2000), Non-equilibrium dynamics of symmetry breaking and gauge fields in quantum field theory (Doctoral dissertation), Technical University of Dortmund, doi:10.17877/DE290R-1120, hdl:2003/2393
  8. "Fellows nominated in 2023 by the Division of Astrophysics", APS Fellows archive, American Physical Society, retrieved 2023-10-28
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