Experimental phase boundary between quantum critical and quantum disordered regime in hole-doped La_2CuO_4

Ying Chen; Wei Bao; Emilio Lorenzo; Anne Stunault; John L. Sarrao; Sungil Park; Yiming Qiu

Experimental phase boundary between quantum critical and quantum disordered regime in hole-doped La$_2$CuO$_4$

ORAL

Abstract

The long-range antiferromagnetic order in La$_2$CuO$_4$ is suppressed by hole doping at $x_c\approx 3\%$ of Li dopant concentration. This allows experimental investigation of the spin fluctuations near the quantum critical point of a 2-dimensional $S$=1/2 antiferromagnet. According to quantum critical theory, the quantum critical (QC) $E/T$ scaling is expected to break down and crosses over to a constant energy quantum disordered (QD) scaling at low temperatures when the doping $x>x_c$. In this single crystal inelastic cold neutron scattering study on spin dynamics of La$_2$Cu$_{1-x}$Li$_{x}$O$_4$ (0.04$

March 25, 2005, 5:00 AM – March 25, 2005, 5:12 AM

Authors

Ying Chen
- University of Maryland/NIST
Wei Bao
- Los Alamos National Laboratory
- Los Alamos National Laboratory, Los Alamos, NM 87545
Emilio Lorenzo
- CNRS, France
Anne Stunault
- Institut Laue-Langevin, France
John L. Sarrao
- Los Alamos National Laboratory
- Los Alamos National Lab
- LANL
- Condensed Matter and Thermal Physics, Los Alamos National Laboratory
Sungil Park
- Korea Atomic Energy Research Institute
Yiming Qiu
- University of Maryland/NIST