IRTG "Bildgebung von Quantensystemen: Photonen, Moleküle, Materialien"

Förderzeitraum: 01.10.2024 bis 30.09.2027

In diesem Graduiertenkolleg sollen die Bereiche Quantenoptik, ultraschnelle elektronische Dynamik und elektronische Kohärenz kombierte werden um innovative Konzepte in den Bereichen Telekommunikation, Datenverarbeitung und Bildrekonstruktion zu realisieren. In dieser Graduiertenschule werden die Forschungsgebiete Quantenoptik, ultraschnelle Elektronendynamik und elektronische Kohärenz synergetisch kombiniert.

All projects are co-supervised by principal investigators from Germany (DE) and Canada (CA)

Project 1: Holonomic quantum gates in integrated waveguides

Stefan Scheel (DE), Alexander Szameit (DE), Jeff Lundeen (CA)

Link to the project description

Project 2: Quantum thermodynamics in randomized structures

Alexander Szameit (DE), Stefan Scheel (DE), Christoph Simon (CA), Robert Boyd (CA)

Link to the project description

Project 3: New second harmonic generation modalities in biological samples to separate between collagen and myosin

Simone Baltrusch (DE), Albert Stolow (CA), Ravi Bhardwaj (CA), Paul Corkum (CA)

Link to the project description

Project 4: Tunable integrated photonic quantum circuits

Alexander Szameit (DE), Ebrahim Karimi (CA)

Link to the project description

Project 5: Imaging of dynamics and electronic structure of materials

Eleftherios Goulielmakis (DE), Thomas Brabec (CA)

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Project 6: Coherent Diffractive Imaging of Quantum Dynamics in Isolated Nanosystems

Thomas Fennel (DE), Lora Ramunno (CA), Thomas Brabec (CA)

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Project 7: Transient absorption spectroscopy and coherences of molecules in the gas phase

Stefan Lochbrunner (DE), Albert Stolow (CA)

Link to the project description

Project 8: Machine Learning for Molecular Quantum Dynamics

O. Kühn (DE), M. Schuurman (CA)

Link to the project description

Project 9: Quantum machine learning with Boson sampling

Stefan Scheel (DE), Khabat Heshami (CA) 

Link to the project description

Project 10: Tracing sub-cycle coherent and collisional electron dynamics in finite systems

Thomas Fennel (DE), Thomas Brabec (CA)

Link to the project description

Project 11: Imaging of biological structures by combined usage of second- and third harmonic generation multiphoton microscopy

Simone Baltrusch (DE), Barry Sanders (CA)

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Project 12: Use of AI for comparative phasor plot analyses in the evaluation of Fluorescence Lifetime Imaging (FLIM) analyses of biological samples

Simone Baltrusch (DE), Barry Sanders (CA)

Link to the project description