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W3168056248 abstract "Low-power trapping of nanoscale objects can be achieved by using the enhanced fields near plasmonic nanoantennas. Unfortunately, in this approach the trap site is limited to the position of the plasmonic hotspots and continuous dynamic manipulation is not feasible. Here, we report a low-frequency electrothermoplasmonic tweezer (LFET) that provides low-power, high-stability and continuous dynamic manipulation of a single nanodiamond. LFET harnesses the combined action of the laser illumination of a plasmonic nanopillar antenna array and low-frequency alternating current (ac) electric field to establish an electrohydrodynamic potential capable of the stable trapping and dynamic manipulation of single nanodiamonds. We experimentally demonstrate the fast transport, trapping, and dynamic manipulation of a single nanodiamond using a low-frequency ac field below 5 kHz and low-laser power of 1 mW. This nanotweezer platform for nanodiamond manipulation holds promise for the scalable assembly of single photon sources for quantum information processing and low noise quantum sensors." @default.
W3168056248 created "2021-06-22" @default.
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W3168056248 date "2021-06-07" @default.
W3168056248 modified "2023-10-16" @default.
W3168056248 title "Electrothermoplasmonic Trapping and Dynamic Manipulation of Single Colloidal Nanodiamond" @default.
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W3168056248 doi "https://doi.org/10.1021/acs.nanolett.1c00357" @default.
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