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the unit cell averaged electron microscopy derived composite image shows excitons in green The moiré unit cell outlined in the lower right of the exciton map is about 8 nanometers in size

Excitons are drawing attention as possible quantum bits (qubits) in tomorrow’s quantum computers and are central to optoelectronics and energy-harvesting processes. However, these charge-neutral quasiparticles, which exist in semiconductors and other materials, are notoriously difficult to confine and manipulate. Now, for the first time, researchers have created and directly observed highly localized excitons confined in simple stacks of atomically thin materials. The work confirms theoretical predictions and opens new avenues for controlling excitons with custom-built materials.

The post Microscopy Images Could Lead to New Ways to Control Excitons for Quantum Computing appeared first on HPCwire.

Article From: "Andrew Jolly"   Read full article »


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