Electron-hole atomic double layers: towards high-temperature exciton condensation
Event Start:
2025-03-13T10:00:00
Event End:
2025-03-13T11:00:00
Event Information:
Excitons, bound electron-hole pairs, in semiconductors are bosons that can form condensates. With a much smaller mass than atoms, they have been predicted to condense at a much higher temperature scale. Although the concept has been understood for more than sixty years, experimental realization of exciton condensates or superfluids has remained challenging. In this talk, I will discuss our recent efforts in creating a high-density equilibrium exciton fluid in atomic double layers made of semiconducting transition metal dichalcogenides.
Event Location:
BRIM 311
Speaker:
Jie Shan, MPI for the structure and dynamics of matter and Cornell University
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Event Start:
2025-03-13T10:00:00
Event End:
2025-03-13T11:00:00
Electron-hole atomic double layers: towards high-temperature exciton condensation
Event Information:
Excitons, bound electron-hole pairs, in semiconductors are bosons that can form condensates. With a much smaller mass than atoms, they have been predicted to condense at a much higher temperature scale. Although the concept has been understood for more than sixty years, experimental realization of exciton condensates or superfluids has remained challenging. In this talk, I will discuss our recent efforts in creating a high-density equilibrium exciton fluid in atomic double layers made of semiconducting transition metal dichalcogenides.
Event Location:
BRIM 311