Physics

New atomic trap boosts quantum performance by using surface forces

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Researchers at Humboldt-Universität zu Berlin have developed a novel technique for trapping atoms in close proximity to an ultrathin glass fiber using surface forces. This advancement has demonstrated significant improvements in the atoms' capacity to retain quantum information. The method represents a technical breakthrough in atomic manipulation at nanoscale distances.


Enhanced quantum information storage is crucial for developing practical quantum computers and communication systems. This trapping method could enable more stable and efficient quantum memory devices, advancing the field of quantum technologies toward real-world applications.


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Researchers at Humboldt-Universität zu Berlin have developed a new method for trapping and controlling atoms near an ultrathin glass fiber. This has significantly improved the atoms’ ability to store quantum information—an important step forward for future quantum technologies.

Source: New atomic trap boosts quantum performance by using surface forces