Issue 8, 2004

Quantum tunneling of the magnetization in the Ising chain compound Ca3Co2O6

Abstract

The magnetic behavior of the Ca3Co2O6 spin chain compound is characterized by a large Ising-like character of its ferromagnetic chains, set on a triangular lattice, that are antiferromagnetically coupled. At low temperature, T < 7 K, the 3D antiferromagnetic state evolves towards a spin frozen state. In this temperature range, magnetic field driven magnetization of single crystals (H // chains) exhibits stepped variations. The occurrence of these steps at regular intervals of the applied magnetic field, Hstep = 1.2 T, is reminiscent of the quantum tunneling of the magnetization (QTM) of molecular based magnets. Magnetization relaxation experiments also strongly support the occurrence of this quantum phenomenon. This first observation of QTM in a magnetic oxide belonging to the large family of A3BB′O6 compounds opens new opportunities to study a quantum effect in a very different class of materials from molecular magnets.

Graphical abstract: Quantum tunneling of the magnetization in the Ising chain compound Ca3Co2O6

Article information

Article type
Communication
Submitted
19 Dec 2003
Accepted
01 Mar 2004
First published
11 Mar 2004

J. Mater. Chem., 2004,14, 1231-1234

Quantum tunneling of the magnetization in the Ising chain compound Ca3Co2O6

A. Maignan, V. Hardy, S. Hébert, M. Drillon, M. R. Lees, O. Petrenko, D. M. K. Paul and D. Khomskii, J. Mater. Chem., 2004, 14, 1231 DOI: 10.1039/B316717H

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