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| Funder | European Commission |
|---|---|
| Recipient Organization | Technische Universitaet Muenchen |
| Country | Germany |
| Start Date | Apr 01, 2023 |
| End Date | Mar 31, 2025 |
| Duration | 730 days |
| Number of Grantees | 1 |
| Roles | Coordinator |
| Data Source | European Commission |
| Grant ID | 101111251 |
Monolayer transition metal dichalcogenides (TMDs) exhibit exceptional properties to study many-body physics with direct optical control through their tightly-bound excitons and enhanced Coulomb interactions.
Even more versatile physics emerge in heterobilayers of TMDs, which host long-lived dipolar interlayer excitons (IXs), with promising potential for quantum simulation experiments and realizing a plethora of correlated phases.
In recent years, TMD heterobilayers have been at the center of many-body physics where effects such as the formation of a Wigner crystal, the demonstration of Hubbard model quantum simulation and the realization of Bose-Einstein condensates are just a few examples. However, deterministic control of single IXs and therefore interactions among individual IXs has not been shown.
For MSCA project, I propose to study many-body physics of IXs, starting from the individual IX level and then progressing to small and well controlled IX populations. To do so I will use nanoscale patterned graphene electrical gates to trap and manipulate them. This top-down approach is scalable and flexible, allowing for the creation of arbitrary trap potentials and geometries.
The scope of this two-year project is to use this technique to fundamentally study the exciton-exciton interactions that are at the basis of the exciting physics that arises from these new materials.
However, the scientific potential of a method that can site-control IXs does not end here, this technique could form the foundation for quantum-simulation, demonstration of Hubbard model physics and exploring new quantum phases.
Technische Universitaet Muenchen
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