CORDIS Project
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This project investigates the interactions among atomically thin layered materials to explore new quantum phases, such as excitonic ferromagnets and dipolar crystals. It aims to harness these interactions for generating non-classical light and discovering topological correlated phases, advancing our understanding of qu…
Interactions amongst a macroscopic number of constituents leads to emergent, collective phenomena such as magnetism and superconductivity.
Quantum confinement enhances interactions between electrons leading to a wide variety of many-body quantum phases.
Atomically thin layered materials such as monolayer semiconductors are prime candidates to study the effect of interactions due to extreme quantum confinement.
Moreover, they offer unique features such as heterostructure assembly aided by van der…
MAX-PLANCK-GESELLSCHAFT ZUR FORDERUNG DER WISSENSCHAFTEN EV
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