Defect-free arrays at the thousand-atom scale in a 4-K cryogenic environment
Abstract
We report on a cryogenic platform at 4 K incorporating high numerical aperture optics for the generation of large-scale tweezers arrays, and compatible with Rydberg-state manipulation. We achieve trapping lifetimes of around 5000 s, significantly extending the available experimental time for the preparation of large-scale arrays. By combining two trapping lasers at different wavelengths and by minimizing other atom losses during the rearrangement and imaging processes, we demonstrate the prepara...
Description / Details
We report on a cryogenic platform at 4 K incorporating high numerical aperture optics for the generation of large-scale tweezers arrays, and compatible with Rydberg-state manipulation. We achieve trapping lifetimes of around 5000 s, significantly extending the available experimental time for the preparation of large-scale arrays. By combining two trapping lasers at different wavelengths and by minimizing other atom losses during the rearrangement and imaging processes, we demonstrate the preparation of defect-free arrays with up to 1024 atoms. Our cryogenic design opens exciting prospects for analog and digital quantum computing.
Source: arXiv:2604.07205v1 - http://arxiv.org/abs/2604.07205v1 PDF: https://arxiv.org/pdf/2604.07205v1 Original Link: http://arxiv.org/abs/2604.07205v1
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Apr 9, 2026
Quantum Computing
Quantum Physics
0