English

Posner molecules: From atomic structure to nuclear spins

Chemical Physics 2019-04-04 v1

Abstract

We investigate "Posner molecules", calcium phosphate clusters with chemical formula Ca9_9(PO4_4)6_6. Originally identified in hydroxyapatite, Posner molecules have also been observed as free-floating molecules inin vitrovitro. The formation and aggregation of Posner molecules have important implications for bone growth, and may also play a role in other biological processes such as the modulation of calcium and phosphate ion concentrations within the mitochondrial matrix. In this work, we use a first-principles computational methodology to study the structure of Posner molecules, their vibrational spectra, their interactions with other cations, and the process of pairwise bonding. Additionally, we show that the Posner molecule provides an ideal environment for the six constituent 31P^{31}\text{P} nuclear spins to obtain very long spin coherence times. InIn vitrovitro, the spins could provide a platform for liquid-state nuclear magnetic resonance quantum computation. InIn vivovivo, the spins may have medical imaging applications. The spins have also been suggested as "neural qubits" in a proposed mechanism for quantum processing in the brain.

Keywords

Cite

@article{arxiv.1711.05899,
  title  = {Posner molecules: From atomic structure to nuclear spins},
  author = {Michael W. Swift and Chris G. Van de Walle and Matthew P. A. Fisher},
  journal= {arXiv preprint arXiv:1711.05899},
  year   = {2019}
}

Comments

8 pages, 6 figures

R2 v1 2026-06-22T22:47:41.654Z