A 3D-printed micro-ion trap with an enlarged loading zone improves hot-ion capture by keeping the Mathieu-q parameter low enough for effective laser cooling without lowering RF voltage.
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Vertical ion shuttling protocols in multi-rail traps can limit motional excitation to under 8 quanta in 500 μs by protocol choice, with surface heating dominant only at longer durations.
citing papers explorer
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Design and fabrication of a micro-ion trap with a 3D-printed loading zone for improved hot-ion capture
A 3D-printed micro-ion trap with an enlarged loading zone improves hot-ion capture by keeping the Mathieu-q parameter low enough for effective laser cooling without lowering RF voltage.
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Low-Excitation Vertical Ion Shuttling in Scalable Multi-Rail Ion Trap Architectures
Vertical ion shuttling protocols in multi-rail traps can limit motional excitation to under 8 quanta in 500 μs by protocol choice, with surface heating dominant only at longer durations.