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Single-shot readout of the nuclear spin of an on-surface atom

Evert W. Stolte, Jinwon Lee (), Hester G. Vennema, Rik Broekhoven, Esther Teng, Allard J. Katan, Lukas M. Veldman, Philip Willke and Sander Otte ()
Additional contact information
Evert W. Stolte: Delft University of Technology
Jinwon Lee: Delft University of Technology
Hester G. Vennema: Delft University of Technology
Rik Broekhoven: Delft University of Technology
Esther Teng: Delft University of Technology
Allard J. Katan: Delft University of Technology
Lukas M. Veldman: University of Stuttgart
Philip Willke: Karlsruhe Institute of Technology
Sander Otte: Delft University of Technology

Nature Communications, 2025, vol. 16, issue 1, 1-7

Abstract: Abstract Nuclear spins owe their long-lived magnetic states to their excellent isolation from the environment. At the same time, a finite degree of interaction with their surroundings is necessary for reading and writing the spin state. Therefore, detailed knowledge of and control over the atomic environment of a nuclear spin is key to optimizing conditions for quantum information applications. While various platforms enabled single-shot readout of nuclear spins, their direct environments were either unknown or impossible to controllably modify on the atomic scale. Scanning tunneling microscopy (STM), combined with electron spin resonance (ESR), provides atomic-scale information of individual nuclear spins via the hyperfine interaction. Here, we demonstrate single-shot readout of an individual 49Ti nuclear spin with an STM. Employing a pulsed measurement scheme, we find its lifetime to be in the order of seconds. Furthermore, we shed light on the pumping and relaxation mechanisms of the nuclear spin by investigating its response to both ESR driving and tunneling current, which is supported by model calculations. These findings give an atomic-scale insight into the nature of nuclear spin relaxation and are relevant for the development of atomically assembled qubit platforms.

Date: 2025
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DOI: 10.1038/s41467-025-63232-5

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