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M.Sc. Henriette Bast

Photo von Henriette Bast.
Phone
Room
E-Mail
henriette.bast@tum.de
Links
Page in TUMonline
Group
Biomedical Physics

Offered Bachelor’s or Master’s Theses Topics

Dark-field Chest X-ray Imaging: Monte Carlo based simulation of Compton scattering

Dark-field radiography is a novel X-ray imaging technique that is being tested for the first time in clinical patient studies on a worldwide first prototype recently completed by us at the TUM Klinikum rechts der Isar. Within the scope of this project, Monte Carlo based Compton simulations will be developed, which will allow an exact modelling of the Compton scattering and thus a better correction of the image artifacts.

Character of thesis work: experimental physics (50%) & computational physics (50%).

For more information, please contact: Henriette Bast (henriette.bast@tum.de) or Franz Pfeiffer (franz.pfeiffer@tum.de).

suitable as
  • Master’s Thesis Applied and Engineering Physics
Supervisor: Franz Pfeiffer
Dark-field Chest X-ray Imaging: Monte Carlo based simulation of Compton scattering

Dark-field radiography is a novel X-ray imaging technique that is being tested for the first time in clinical patient studies on a worldwide first prototype recently completed by us at the TUM Klinikum rechts der Isar. Within the scope of this project, Monte Carlo based Compton simulations will be developed, which will allow an exact modelling of the Compton scattering and thus a better correction of the image artifacts.

Character of thesis work: experimental physics (50%) & computational physics (50%).

For more information, please contact: Henriette Bast (henriette.bast@tum.de) or Franz Pfeiffer (franz.pfeiffer@tum.de).

suitable as
  • Master’s Thesis Biomedical Engineering and Medical Physics
Supervisor: Franz Pfeiffer
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