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This paper explores the potential of spectroscopy and microscopy to observe quantum properties in nanoscale samples by detecting interparticle radiation force (IRF). Results show the availability of IRF to extract multidirectional information of excited nanostructures. This study paves the way to a new type of metrology technique using IRF reflecting many quantum degrees of freedom in excited nanostructures.
We discuss the mechanical interaction between nanoscale objects irradiated by electronic resonant light. The anomalous mechanical interactions arise depending on the structures of coupled modes of internal fields confined in respective objects
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