Nature Communications (Feb 2024)

Approaching a fully-polarized state of nuclear spins in a solid

  • Peter Millington-Hotze,
  • Harry E. Dyte,
  • Santanu Manna,
  • Saimon F. Covre da Silva,
  • Armando Rastelli,
  • Evgeny A. Chekhovich

DOI
https://doi.org/10.1038/s41467-024-45364-2
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 7

Abstract

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Abstract Magnetic noise of atomic nuclear spins is a major source of decoherence in solid-state spin qubits. In theory, near-unity nuclear spin polarization can eliminate decoherence of the electron spin qubit, while turning the nuclei into a useful quantum information resource. However, achieving sufficiently high nuclear polarizations has remained an evasive goal. Here we implement a nuclear spin polarization protocol which combines strong optical pumping and fast electron tunneling. Nuclear polarizations well above 95% are generated in GaAs semiconductor quantum dots on a timescale of 1 minute. The technique is compatible with standard quantum dot device designs, where highly-polarized nuclear spins can simplify implementations of qubits and quantum memories, as well as offer a testbed for studies of many-body quantum dynamics and magnetism.