Demonstrates sympathetic cooling of trapped ions via Zeeman-shift spectral selectivity on metastable levels to isolate data ions from coolant ions.
Transport of Quantum States and Separation of Ions in a Dual RF Ion Trap
1 Pith paper cite this work. Polarity classification is still indexing.
abstract
We have investigated ion dynamics associated with a dual linear ion trap where ions can be stored in and moved between two distinct locations. Such a trap is a building block for a system to engineer arbitrary quantum states of ion ensembles. Specifically, this trap is the unit cell in a strategy for scalable quantum computing using a series of interconnected ion traps. We have transferred an ion between trap locations 1.2 mm apart in 50 $\mu$s with near unit efficiency ($> 10^{6}$ consecutive transfers) and negligible motional heating, while maintaining internal-state coherence. In addition, we have separated two ions held in a common trap into two distinct traps.
fields
quant-ph 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
citing papers explorer
-
Sympathetic Cooling in Trapped Ions with Spectral Selectivity via the Zeeman Shift
Demonstrates sympathetic cooling of trapped ions via Zeeman-shift spectral selectivity on metastable levels to isolate data ions from coolant ions.