Research
Our research examines how strong electronic correlations interact with disorder and electronic granularity to shape the electronic properties of materials, with emphasis on cooperative ground states such as magnetism and superconductivity, as well as quantum phase transitions.
Correlated Quantum Matter
Exploring how interactions and disorder shape emergent quantum phases.
Thin Films & Nanostructures
Design and fabrication of nanoscale systems with tailored electronic properties.
Direct-Write Nanofabrication
Focused electron- and ion-beam induced deposition (FEBID/FIBID) as a versatile tool.
Applications
From fundamental insights to enabling technologies in magnetism, superconductivity, and quantum devices.