Reinvestigation of crystal symmetry and fluctuations in La2CuO4

New surprises continue to be revealed about La2CuO4, the parent compound of the original cuprate superconductor. Here we present neutron scattering evidence that the structural symmetry is lower than commonly assumed. The static distortion results in anisotropic Cu-O bonds within the CuO2 planes; such anisotropy is relevant to pinning charge stripes in hole-doped samples. Associated with the extra structural modulation is a soft phonon mode. If this phonon were to soften completely, the resulting change in CuO6 octahedral tilts would lead to weak ferromagnetism. Hence, we suggest that this mode may be the chiral phonon inferred from recent studies of the thermal Hall effect. We also note the absence of interaction between the antiferromagnetic spin waves and low-energy optical phonons, in contrast to what is observed in hole-doped samples.

Automated summary

New findings suggest lower structural symmetry and anisotropic Cu-O bonds in La2CuO4, with a soft phonon mode potentially leading to weak ferromagnetism. Interaction between antiferromagnetic spin waves and low-energy optical phonons is absent compared to hole-doped samples.