Influence of the Magnetic Sub-Lattices in the Double Perovskite Compound LaCaNiReO6.

The magnetism of double perovskites is a complex phenomenon, determined from intra- or interatomic magnetic moment interactions and strongly influenced by geometry. We take advantage of the complementary length and time scales of muon spin rotation, relaxation and resonance (mu+SR) microscopic technique and bulk AC/DC magnetic susceptibility measurements to study the magnetic phases of the LaCaNiReO6 double perovskite. As a result we are able to discern and report a newly found dynamic phase transition and the formation of magnetic domains below and above the known ferrimagnetic transition of this compound at Tc = 103 K. mu+SR, serving as a local probe at crystallographic interstitial sites, reveals a transition from a metastable ferrimagnetic ordering below Tc = 103 K to a stable one below Txy = 30 K. Furthermore, the fast and slow collective dynamic state of this system is investigated. An evolution of the interaction between Ni and Re magnetic sublattices in this geometrically frustrated fcc structure, is revealed as a function of temperature, through the critical behaviour and thermal evolution of microscopic and macroscopic physical quantities.