Atomic-Scale Self-Assembly Revolutionizes Nanotechnology with Light-Trapping Cavities
Researchers have developed a new method for manufacturing semiconductor devices using self-assembly and surface forces. By harnessing the pull-in instabilities between nearby objects, the researchers were able to fabricate nanostructures with few- or sub-nanometer dimensions. They demonstrated the application of this method by creating photonic nanocavities that confine light in air gaps in silicon membranes with aspect ratios exceeding 100. The self-assembled nanocavities exhibited high-quality factors and small mode volumes, surpassing previous experiments on dielectric cavities. The researchers also successfully integrated the self-assembled devices with photonic circuits, demonstrating the scalability and potential for interfacing with top-down planar technology.