Skip to content Skip to navigation
University of Warwick
  • Study
  • |
  • Research
  • |
  • Business
  • |
  • Alumni
  • |
  • News
  • |
  • About

University of Warwick
Publications service & WRAP

Highlight your research

  • WRAP
    • Home
    • Search WRAP
    • Browse by Warwick Author
    • Browse WRAP by Year
    • Browse WRAP by Subject
    • Browse WRAP by Department
    • Browse WRAP by Funder
    • Browse Theses by Department
  • Publications Service
    • Home
    • Search Publications Service
    • Browse by Warwick Author
    • Browse Publications service by Year
    • Browse Publications service by Subject
    • Browse Publications service by Department
    • Browse Publications service by Funder
  • Help & Advice
University of Warwick

The Library

  • Login
  • Admin

Hidden order in spin-liquid Gd3Ga5O12

Tools
- Tools
+ Tools

Paddison, J. A. M., Jacobsen, H., Petrenko, Oleg, Fernandez-Diaz, M. T., Deen, P. P. and Goodwin, A. L. (2015) Hidden order in spin-liquid Gd3Ga5O12. Science, 350 (6257). pp. 179-181. doi:10.1126/science.aaa5326 ISSN 0036-8075.

[img]
Preview
PDF
WRAP-hidden-order-spin-liquid-Petrenko-2017.pdf - Accepted Version - Requires a PDF viewer.

Download (1483Kb) | Preview
Official URL: http://dx.doi.org/10.1126/science.aaa5326

Request Changes to record.

Abstract

Frustrated magnetic materials are promising candidates for new states of matter because lattice geometry suppresses conventional magnetic dipole order, potentially allowing “hidden” order to emerge in its place.Amodel of a hidden-order state at the atomic scale is difficult to deduce because microscopic probes are not directly sensitive to hidden order. Here,we develop such a model of the spin-liquid state in the canonical frustratedmagnet gadolinium gallium garnet (Gd3Ga5O12).We show that this state exhibits a long-range hidden order inwhichmultipoles are formed from10-spin loops. The order is a consequence of the interplay between antiferromagnetic spin correlations and local magnetic anisotropy, which allows it to be indirectly observed in neutron-scattering experiments.

Item Type: Journal Article
Subjects: Q Science > QC Physics
Divisions: Faculty of Science, Engineering and Medicine > Science > Physics
Library of Congress Subject Headings (LCSH): Condensed matter, Magnetic materials, Magnetic fluids, Antiferromagnetism
Journal or Publication Title: Science
Publisher: American Association for the Advancement of Science
ISSN: 0036-8075
Official Date: 9 October 2015
Dates:
DateEvent
9 October 2015Published
14 August 2015Accepted
Volume: 350
Number: 6257
Page Range: pp. 179-181
DOI: 10.1126/science.aaa5326
Status: Peer Reviewed
Publication Status: Published
Access rights to Published version: Restricted or Subscription Access
Copyright Holders: American Association for the Advancement of Science
Date of first compliant deposit: 26 April 2017
Date of first compliant Open Access: 2 May 2017
Funder: Danish Council for Independent Research, Science and Technology Facilities Council (Great Britain) (STFC), Engineering and Physical Sciences Research Council (EPSRC), European Research Council (ERC)
Grant number: EP/G004528/2 (ESPRC), ERC No. 279705 (ERC)

Request changes or add full text files to a record

Repository staff actions (login required)

View Item View Item

Downloads

Downloads per month over past year

View more statistics

twitter

Email us: wrap@warwick.ac.uk
Contact Details
About Us