Spin liquids in frustrated magnets

Top Cited Papers

10 March 2010

journal article
Published by Springer Nature in Nature

Vol. 464 (7286) , 199-208
https://doi.org/10.1038/nature08917

Abstract

Frustrated magnets are materials in which localized magnetic moments, or spins, interact through competing exchange interactions that cannot be simultaneously satisfied, giving rise to a large degeneracy of the system ground state. Under certain conditions, this can lead to the formation of fluid-like states of matter, so-called spin liquids, in which the constituent spins are highly correlated but still fluctuate strongly down to a temperature of absolute zero. The fluctuations of the spins in a spin liquid can be classical or quantum and show remarkable collective phenomena such as emergent gauge fields and fractional particle excitations. This exotic behaviour is now being uncovered in the laboratory, providing insight into the properties of spin liquids and challenges to the theoretical description of these materials.

Keywords

This publication has 97 references indexed in Scilit:

Spin-Orbital Singlet and Quantum Critical Point on the Diamond Lattice: ${FeSc}_{2} S_{4}$
Physical Review Letters, 2009
Quantum phase transition induced by Dzyaloshinskii-Moriya interactions in the kagome antiferromagnet
Physical Review B, 2008
Structural phase transitions in geometrically frustrated antiferromagnets
Physical Review B, 2008
Quantum Magnetism in the Paratacamite Family: Towards an Ideal Kagomé Lattice
Physical Review Letters, 2007
Spin and orbital frustration in ${FeSc}_{2} S_{4}$ probed by ${}^{45}{Sc}$ NMR
Physical Review B, 2006
Extended scattering continua characteristic of spin fractionalization in the two-dimensional frustrated quantum magnet ${Cs}_{2} {CuCl}_{4}$ observed by neutron scattering
Physical Review B, 2003
Limits on Spin-Charge Separation from $h / 2 e$ Fluxoids in Very Underdoped ${YBa}_{2} {Cu}_{3} O_{6 + x}$
Physical Review Letters, 2001
Orbital Liquid in Three-Dimensional Mott Insulator: ${LaTiO}_{3}$
Physical Review Letters, 2000
Resonating valence bonds: A new kind of insulator?
Materials Research Bulletin, 1973
The Structure and Entropy of Ice and of Other Crystals with Some Randomness of Atomic Arrangement
Journal of the American Chemical Society, 1935