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Optical force mapping at the single-nanometre scale

Junsuke Yamanishi, Hidemasa Yamane, Yoshitaka Naitoh, Yan Jun Li, Nobuhiko Yokoshi, Tatsuya Kameyama, Seiya Koyama, Tsukasa Torimoto, Hajime Ishihara, Yasuhiro Sugawara

2021Nature Communications47 citationsDOIOpen Access PDF

Abstract

Three-dimensional (3D) information of the optical response in the nanometre scale is important in the field of nanophotonics science. Using photoinduced force microscopy (PiFM), we can visualize the nano-scale optical field using the optical gradient force between the tip and sample. Here, we demonstrate 3D photoinduced force field visualization around a quantum dot in the single-nanometre spatial resolution with heterodyne frequency modulation technique, using which, the effect of the photothermal expansion of the tip and sample in the ultra-high vacuum condition can be avoided. The obtained 3D mapping shows the spatially localized photoinduced interaction potential and force field vectors in the single nano-scale for composite quantum dots with photocatalytic activity. Furthermore, the spatial resolution of PiFM imaging achieved is ~0.7 nm. The single-nanometer scale photoinduced field visualization is crucial for applications such as photo catalysts, optical functional devices, and optical manipulation.

Topics & Concepts

NanometreNanophotonicsMaterials scienceQuantum dotNanoscopic scaleField (mathematics)OptoelectronicsNear-field scanning optical microscopeScale (ratio)Image resolutionOptical forceOpticsNanotechnologyOptical tweezersPhysicsOptical microscopeScanning electron microscopeMathematicsPure mathematicsQuantum mechanicsForce Microscopy Techniques and ApplicationsNear-Field Optical MicroscopyMechanical and Optical Resonators
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