A Robust Strontium Tweezer Apparatus for Quantum Computing
Abstract
Neutral atoms for quantum computing applications show promise in terms of scalability and connectivity. We demonstrate the realization of a versatile apparatus capable of stochastically loading a 5x5 array of optical tweezers with single Sr atoms featuring flexible magnetic field control and excellent optical access. A custom-designed oven, spin-flip Zeeman slower, and deflection stage produce a controlled flux of Sr directed to the science chamber. In the science chamber, featuring a vacuum pressure of mbar, the Sr is cooled using two laser cooling stages, resulting in atoms at a temperature of 5(1) K. The optical tweezers feature a waist of 0.81(2) m, and loaded atoms can be imaged with a fidelity of and a survival probability of . The atomic array presented here forms the core of a full-stack quantum computing processor targeted for quantum chemistry computational problems.
Keywords
Cite
@article{arxiv.2601.16564,
title = {A Robust Strontium Tweezer Apparatus for Quantum Computing},
author = {Marijn Venderbosch and Rik van Herk and Zhichao Guo and Jesús del Pozo Mellado and Max Festenstein and Deon Janse van Rensburg and Ivo Knottnerus and Yu Chih Tseng and Alexander Urech and Robert Spreeuw and Florian Schreck and Rianne Lous and Edgar Vredenbregt and Servaas Kokkelmans},
journal= {arXiv preprint arXiv:2601.16564},
year = {2026}
}
Comments
12 pages, 10 figures