and Bucher, Dominik B

Glenn, David R · DOI 10.1038/nature25781

2 Pith papers cite this work. Polarity classification is still indexing.

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Localized efficient in-vacuum loading of $\sim$0.1-10 $\mu$m spherical and plate-like particles into optical traps using a pulled glass capillary

physics.optics · 2026-05-07 · unverdicted · novelty 6.0

A piezoelectric-driven glass capillary launcher enables localized, high-efficiency (up to 93%) in-vacuum loading of silica spheres, nanodiamonds, and plate-like particles into single-beam, dual-beam, and standing-wave optical traps.

Long Spin Relaxation Times in CVD-Grown Nanodiamonds

cond-mat.mes-hall · 2026-05-12 · unverdicted · novelty 5.0

CVD-grown nanodiamonds of ~60 nm achieve mean T1 spin relaxation times of 800 μs with maxima over 1.8 ms, nearly ten times longer than commercial nanodiamonds in the 50-150 nm range.

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Localized efficient in-vacuum loading of $\sim$0.1-10 $\mu$m spherical and plate-like particles into optical traps using a pulled glass capillary physics.optics · 2026-05-07 · unverdicted · none · ref 107
A piezoelectric-driven glass capillary launcher enables localized, high-efficiency (up to 93%) in-vacuum loading of silica spheres, nanodiamonds, and plate-like particles into single-beam, dual-beam, and standing-wave optical traps.
Long Spin Relaxation Times in CVD-Grown Nanodiamonds cond-mat.mes-hall · 2026-05-12 · unverdicted · none · ref 57
CVD-grown nanodiamonds of ~60 nm achieve mean T1 spin relaxation times of 800 μs with maxima over 1.8 ms, nearly ten times longer than commercial nanodiamonds in the 50-150 nm range.

and Bucher, Dominik B

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