Physics:Spin canting

Antisymmetric exchange would align spins perpendicular to each other

Some antiferromagnetic materials exhibit a non-zero magnetic moment at a temperature near absolute zero. This effect is ascribed to spin canting, a phenomenon through which spins are tilted by a small angle about their axis rather than being exactly co-parallel.

Spin canting is due to two factors contrasting each other: isotropic exchange would align the spins exactly antiparallel, while antisymmetric exchange arising from relativistic effects (spin–orbit coupling) would align the spins at 90° to each other. The net result is a small perturbation, the extent of which depends on the relative strength of these effects.^[1]

This effect is observable in many materials such as hematite.^[2]

References

↑ Richard Winpenny (2011). Molecular Cluster Magnets. World Scientific. p. 119. ISBN 9789814322942.
↑ "Ferromagnetism". University of California, San Diego. http://magician.ucsd.edu/essentials/webbookse18.html#x23-280079. Retrieved 2 January 2013.

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[1] Richard Winpenny (2011). Molecular Cluster Magnets. World Scientific. p. 119. ISBN 9789814322942.

[2] "Ferromagnetism". University of California, San Diego. http://magician.ucsd.edu/essentials/webbookse18.html#x23-280079. Retrieved 2 January 2013.

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