"Neutral atoms are a promising platform for quantum science, enabling advances in areas ranging from quantum simulations13 and computation410 to metrology, atomic clocks1113 and quantum networking1416. While atom losses typically limit these systems to a pulsed mode, continuous operation1722 could significantly enhance cycle rates, remove bottlenecks in metrology23, and enable deep-circuit quantum evolution through quantum error correction24,25. Here we demonstrate an experimental architecture for high-rate reloading and continuous operation of a large-scale atom array system while realizing coherent storage and manipulation of quantum information."
"We are providing an unedited version of this manuscript to give early access to its findings. Before final publication, the manuscript will undergo further editing. Please note there may be errors present which affect the content, and all legal disclaimers apply. Atomic and molecular physics Quantum information Qubits Neutral atoms are a promising platform for quantum science, enabling advances in areas ranging from quantum simulations13 and computation410 to metrology, atomic clocks1113 and quantum networking1416."
Neutral atoms provide a scalable platform for quantum simulations, computation, metrology, atomic clocks and quantum networking. Atom losses typically force pulsed operation, limiting cycle rates and constraining metrology and long-depth quantum-circuit execution. Continuous operation can significantly enhance cycle rates, remove metrology bottlenecks and enable deep-circuit quantum evolution with quantum error correction. An experimental architecture enables high-rate reloading and continuous operation of a large-scale atom array while maintaining coherent storage and manipulation of quantum information. The approach uses two optical lattice conveyor belts to transport atom reservoirs into a science region, where atoms are repeatedly extracted into optical tweezers without affecting the coherence of nearby qubits.
Read at www.nature.com
Unable to calculate read time
Collection
[
|
...
]