Dirac Strings and Magnetic Monopoles in Spin Ice Dy2Ti2O7
Abstract
While sources of magnetic fields - magnetic monopoles - have so far proven elusive as elementary particles, several scenarios have been proposed recently in condensed matter physics of emergent quasiparticles resembling monopoles. A particularly simple proposition pertains to spin ice on the highly frustrated pyrochlore lattice. The spin ice state is argued to be well-described by networks of aligned dipoles resembling solenoidal tubes - classical, and observable, versions of a Dirac string. Where these tubes end, the resulting defect looks like a magnetic monopole. We demonstrate, by diffuse neutron scattering, the presence of such strings in the spin-ice Dy2Ti2O7. This is achieved by applying a symmetry-breaking magnetic field with which we can manipulate density and orientation of the strings. In turn, heat capacity is described by a gas of magnetic monopoles interacting via a magnetic Coulomb interaction.
Cite
@article{arxiv.1011.1174,
title = {Dirac Strings and Magnetic Monopoles in Spin Ice Dy2Ti2O7},
author = {D. J. P. Morris and D. A. Tennant and S. A. Grigera and B. Klemke and C. Castelnovo and R. Moessner and C. Czternasty and M. Meissner and K. C. Rule and J. -U. Hoffmann and K. Kiefer and S. Gerischer and D. Slobinsky and R. S. Perry},
journal= {arXiv preprint arXiv:1011.1174},
year = {2010}
}
Comments
32 pages (19 pages of article, 13 pages of supporting online material)