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Driven spin dynamics enhances cryptochrome magnetoreception: Towards live quantum sensing

Quantum Physics 2026-04-17 v1 Biological Physics Computational Physics

Abstract

The mechanism underlying magnetoreception has long eluded explanation. A popular hypothesis attributes this sense to the quantum coherent spin dynamics of spin-selective recombination reactions of radical pairs in the protein cryptochrome. However, concerns about the validity of the hypothesis have been raised as unavoidable inter-radical interactions, such as strong electron-electron dipolar coupling, appear to suppress its sensitivity. We demonstrate that this can be overcome by driving the spin system through a modulation of the inter-radical distance. It is shown that this dynamical process markedly enhances geomagnetic field sensitivity in strongly coupled radical pairs via a Landau-Zener type transition between singlet and triplet states. These findings suggest that a "live" harmonically driven magnetoreceptor can be more sensitive than its "dead" static counterpart.

Keywords

Cite

@article{arxiv.2206.07355,
  title  = {Driven spin dynamics enhances cryptochrome magnetoreception: Towards live quantum sensing},
  author = {Luke D. Smith and Farhan T. Chowdhury and Iona Peasgood and Nahnsu Dawkins and Daniel R. Kattnig},
  journal= {arXiv preprint arXiv:2206.07355},
  year   = {2026}
}

Comments

7 pages, 4 figures, in addition to Supporting Material of 15 pages and 12 figures

R2 v1 2026-06-24T11:51:57.657Z