Atomistic insights on P implantation by using molecular ion beams for scalable spin-qubit arrays

TF Bouvier and V Jantunen and S Vihuri and AL Cazalilla and F Djurabekova, JOURNAL OF PHYSICS D-APPLIED PHYSICS, 58, 105105 (2025).

DOI: 10.1088/1361-6463/ada3bb

Quantum information technologies hold immense promise, with quantum computers poised to revolutionize problem-solving capabilities. Among the leading contenders are solid-state spin-qubits, particularly those utilizing the spin of phosphorous donors (31P). While significant progress has been made in enhancing quantum coherence and qubit control, challenges persist, notably in achieving precise and scalable P placement in Si substrate. This paper investigates by means of molecular dynamics the use of molecular PF2 ions for implantation, aiming to reduce placement uncertainty while maintaining detection efficiency. We examine energy transfer, molecule integrity, implantation profiles, electronic signal components, and stable damage. Among other things we find that the assumption that the molecule only breaks apart immediately due to the presence of an a-SiO2 layer on the surface of the crystal and that the intensity of the electronic signal from ion-solid interactions does not correlate necessarily with the penetration depth of P.

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