Gapless spin liquid ground state in the S=1/2 vanadium oxyfluoride kagome antiferromagnet [NH4]2[C7H14N][V7O6F18]

L. Clark , J.C. Orain , F. Bert , M. A. de Vries , F. H. Aidoudi , R. E. Morris , P. Lightfoot , J. S. Lord

show 5 more authors

M. T. F. Telling P. Bonville J. P. Attfield 1 P. Mendels A. Harrison

Authors on Pith no claims yet

classification ❄️ cond-mat.str-el

keywords kagomespinionsc7h14ndqvofgaplessgroundlayers

0 comments

read the original abstract

The vanadium oxyfluoride [NH4]2[C7H14N][V7O6F18] (DQVOF) is a geometrically frustrated magnetic bilayer material. The structure consists of S=1/2 kagome planes of V4+ d1 ions with S=1 V3+ d2 ions located between the kagome layers. Muon spin relaxation measurements demonstrate the absence of spin freezing down to 40 mK despite an energy scale of 60 K for antiferromagnetic exchange interactions. From magnetization and heat capacity measurements we conclude that the S=1 spins of the interplane V3+ ions are weakly coupled to the kagome layers, such that DQVOF can be viewed as an experimental model for S=1/2 kagome physics, and that it displays a gapless spin liquid ground state.

This paper has not been read by Pith yet.

Gapless spin liquid ground state in the S=1/2 vanadium oxyfluoride kagome antiferromagnet [NH4]2[C7H14N][V7O6F18]

discussion (0)