Levitated ~200 nm Au particles in a quadrupole ion trap acquire a carbon barrier under repeated 532 nm laser pulsing in vacuum, increasing mass independently of added carbon-gas pressures and consistent with graphene growth from a hypothesized rare surface catalyst.
and Rodriguez, Daniel J
3 Pith papers cite this work. Polarity classification is still indexing.
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cond-mat.mes-hall 3years
2026 3verdicts
UNVERDICTED 3representative citing papers
Experimental methods achieve Q/M measurement precision approaching 10^{-5} for levitated nanoparticles in ultra-high vacuum using ion traps with thermostatic amplitude control.
A fabrication process for Au and Au/graphene platelets achieving 30% yield and intact bilayers for levitation experiments.
citing papers explorer
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Carbon encapsulation of levitated Au nanoparticles
Levitated ~200 nm Au particles in a quadrupole ion trap acquire a carbon barrier under repeated 532 nm laser pulsing in vacuum, increasing mass independently of added carbon-gas pressures and consistent with graphene growth from a hypothesized rare surface catalyst.
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Collection, characterization, and precision measurement of levitated charged nanoparticles
Experimental methods achieve Q/M measurement precision approaching 10^{-5} for levitated nanoparticles in ultra-high vacuum using ion traps with thermostatic amplitude control.
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Microfabricated Au and Au/graphene bilayer platelets for levitation experiments
A fabrication process for Au and Au/graphene platelets achieving 30% yield and intact bilayers for levitation experiments.