Spatial mode decomposition of back-scattered light from a levitated nanoparticle yields 3D displacement sensitivities below zero-point motion with estimated total efficiencies above 1/9.
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Core-shell lanthanide-doped nanocrystals achieve lower laser refrigeration temperatures in optical levitation than bare nanocrystals, with one reaching 147 K at 26 mbar in the underdamped regime.
citing papers explorer
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Three-Dimensional and Selective Displacement Sensing of a Levitated Nanoparticle via Spatial Mode Decomposition
Spatial mode decomposition of back-scattered light from a levitated nanoparticle yields 3D displacement sensitivities below zero-point motion with estimated total efficiencies above 1/9.
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Inert shell coating for enhanced laser refrigeration of nanoparticles: application in levitated optomechanics
Core-shell lanthanide-doped nanocrystals achieve lower laser refrigeration temperatures in optical levitation than bare nanocrystals, with one reaching 147 K at 26 mbar in the underdamped regime.