期刊论文详细信息
Proposal for the detection of magnetic monopoles in spin ice via nanoscale magnetometry
Article
关键词: SINGLE-ELECTRON SPIN;    PROXIMAL MAGNETOMETRY;    COULOMB PHASE;    SPECTROSCOPY;    DYNAMICS;    ENTROPY;   
DOI  :  10.1103/PhysRevB.97.140402
来源: SCIE
【 摘 要 】

We present a proposal for applying nanoscale magnetometry to the search for magnetic monopoles in the spin ice materials holmium and dysprosium titanate. Employing Monte Carlo simulations of the dipolar spin ice model, we find that when cooled to below 1.5 K these materials exhibit a sufficiently low monopole density to enable the direct observation of magnetic fields from individual monopoles. At these temperatures we demonstrate that noise spectroscopy can capture the intrinsic fluctuations associated with monopole dynamics, allowing one to isolate the qualitative effects associated with both the Coulomb interaction between monopoles and the topological constraints implied by Dirac strings. We describe in detail three different nanoscale magnetometry platforms (muon spin rotation, nitrogen-vacancy defects, and nanoscale arrays of superconducting quantum interference devices) that can be used to detect monopoles in these experiments and analyze the advantages of each.

【 授权许可】

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