5. Theoretical Physics (CSN4)

Quasi one-dimensional vanadium oxides with strong spin-orbit interaction

by Dr Natalia Perkins (University of Wisconsin-Madison,USA (Dept.Physics))

Aula A1 (LNF)

Aula A1


Via Enrico Fermi, 40 00044 Frascati (Roma)
Geometrically frustrated magnets with orbital degeneracy exhibit a variety of complex ground states with unusual magnetic and orbital orders. In my talk, I will focus on vanadium oxides with general formula AV2O4 in which orbital fluctuations strongly influence magnetic properties and give rise to novel properties not observed in purely spin materials. I will discuss two vanadium compounds: a spinel ZnV2O4 and a quasi-one-dimensional compound CaV2O4. The vanadium chains in these compounds are characterized by frustrated magnetic interactions, Ising-like orbital exchanges and a relativistic spin-orbit interactions. On these two examples I will show how the interplay between spin, orbital and lattice degrees of freedom leads to a variety of interesting ground states and elementary excitations.
Your browser is out of date!

Update your browser to view this website correctly. Update my browser now