English

Neutron diffraction in a model itinerant metal near a quantum critical point

Strongly Correlated Electrons 2009-11-13 v2 Materials Science
Authors: D. A. Sokolov , M. C. Aronson , R. Erwin , J. W. Lynn , M. D. Lumsden , S. E. Nagler
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Abstract

Neutron diffraction measurements on single crystals of Cr1-xVx (x=0, 0.02, 0.037) show that the ordering moment and the Neel temperature are continuously suppressed as x approaches 0.037, a proposed Quantum Critical Point (QCP). The wave vector Q of the spin density wave (SDW) becomes more incommensurate as x increases in accordance with the two band model. At xc=0.037 we have found temperature dependent, resolution limited elastic scattering at 4 incommensurate wave vectors Q=(1+/-delta_1,2, 0, 0)*2pi/a, which correspond to 2 SDWs with Neel temperatures of 19 K and 300 K. Our neutron diffraction measurements indicate that the electronic structure of Cr is robust, and that tuning Cr to its QCP results not in the suppression of antiferromagnetism, but instead enables new spin ordering due to novel nesting of the Fermi surface of Cr.

Keywords

spin excitations in condensed matter quantum critical point phase transitions

Cite

@article{arxiv.0807.3586,
  title  = {Neutron diffraction in a model itinerant metal near a quantum critical point},
  author = {D. A. Sokolov and M. C. Aronson and R. Erwin and J. W. Lynn and M. D. Lumsden and S. E. Nagler},
  journal= {arXiv preprint arXiv:0807.3586},
  year   = {2009}
}

Comments

Submitted as a part of proceedings of LT25 (Amsterdam 2008)

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