Capturing the hidden symmetry in layered iridate heterostructures

Layered iridates hosting square lattices have recently gained plenty of interests with potential of unconventional superconductivity leading the charge. The large spin-orbit coupling of the Ir pseudospin half state, on the other hand, may enable a hidden SU(2) symmetry much stronger than that in cuprates. Probing and unveiling this symmetry is however highly challenging and hindered in the bulk material, because of the non-trivial interlayer coupling. Through accurately tailoring the magnetic structure, we exploited this symmetry in heterostructures as composed of perovskite SrIrO₃ and SrTiO₃. Upon approaching the 2D limit, the hidden symmetry triggers large magnetic fluctuations and enables an unprecedented strong coupling between the antiferromagnetic order and external magnetic field. The capability of materializing the hidden symmetry in artificial structures provides a fruitful playground for pursuing novel phenomena beyond the cuprate physics.