WG1
Fundamental Understanding: Theory and Experiments
TOPICS
- Spin-transport and spin orbit effects in oxides
- Complexity in transition metal oxides: inhomogeneity, phase separation
- Probing oxides at the nanoscale
- Electrostatic modulation of the properties of oxides
- Larger-scale, mesoscale modelling, effective theories based on ab initio modeling
- Topological states and defects, including vortices, skyrmions, and lattice defects
- Charge transfer across oxide interfaces
- Quantum phase transitions and quantum criticality in transition metal oxides
- Magnetic frustration in oxides
- 2-dimensional metal oxide nanosheets
- Strongly correlated electrons phenomena in oxides
WG2
Oxides Growth and Fabrication Methods
TOPICS
- Advances in situ/real time monitoring of thin film deposition
- Plasma plume diagnostics in PLD
- Ferroelectrics and other oxides on Si
- Introduction and segregation of nano-inclusions
- Large area and/or low temperature growth of oxides
- Growth of oxides on flexible substrates
- Nanofabrication methods in oxides
- 2D oxides
- In situ TEM characterisation of operational oxide devices
- Atomic scale mapping of electric and magnetic fields in oxides
- The role of strain in oxide electronics
WG3
TOPICS
- Oxide-based thermoelectric, electrocaloric and piezoelectric applications
- Oxides for photovoltaic applications
- Ion conducting oxides
- Materials for thin film batteries
- Oxide-based memories and memristors
- Oxide-based sensors, actuators
- Ferroelectric/Piezoelectric oxides
- Oxide-based spintronics
- Quantum computer from theory to device
- Oxides for quantum computation