Magnetocaloric properties of V6 molecular magnet

TL;DR

This paper theoretically investigates the magnetocaloric effect in a V6 molecular magnet with two weakly interacting spin triangles, revealing highly tunable entropy changes under varying magnetic fields.

Contribution

It introduces a detailed theoretical analysis of the magnetocaloric properties of V6 molecular magnet using exact diagonalization and field formalism, highlighting the tunability of the effect.

Findings

High tunability of the magnetocaloric effect with magnetic field changes

Detailed dependence of magnetic entropy and specific heat on temperature and field

Identification of unique entropy behavior in V6 molecular magnet

Abstract

The paper presents a theoretical study of magnetocaloric properties of polyoxovanadate molecular magnet V6 containing 6 vanadium ions carrying quantum spins $S = 1/2$. The characteristic property of such structure is the presence of two weakly interacting spin triangles with all-antiferromagnetic couplings. The properties of the system are described using the exact numerical diagonalization approach applied to the quantum Heisenberg model and utilizing a field ensemble formalism. The dependence of the magnetic entropy and magnetic specific heat on the temperature and external magnetic field is calculated and extensively discussed. The magnetocaloric properties are quantified by isothermal entropy change and entropy derivative over the magnetic field. An interesting behaviour of isothermal entropy change is found, with high degree of tunability of the magnetocaloric effect with the initial and final magnetic field values.