Accurate first principles calculations were performed to predict the optical and magneto-optical properties of a large set of Heusler compounds. The optical properties are explained in terms of relevant transitions from the underlying band-structure, Suggesting that the joint density of states plays a role in shaping the optical spectra. As for the magneto-optical properties. our results show that most of the Heusler Compounds have peaks in the Kerr rotations of the order of 0.5 degrees, typical for 3d-based materials. The Kerr spectra are rather similar for all considered Heuslers, consistent with their overall comparable band-structure; the peaks in the Kerr angles were traced back to their optical versus magneto-optical contributions. This careful ab initio analysis is extremely helpful in view of engineering the Kerr rotation for technological purposes.
Magneto-optical properties of Heusler compounds from a first-principles approach
Picozzi S;
2006
Abstract
Accurate first principles calculations were performed to predict the optical and magneto-optical properties of a large set of Heusler compounds. The optical properties are explained in terms of relevant transitions from the underlying band-structure, Suggesting that the joint density of states plays a role in shaping the optical spectra. As for the magneto-optical properties. our results show that most of the Heusler Compounds have peaks in the Kerr rotations of the order of 0.5 degrees, typical for 3d-based materials. The Kerr spectra are rather similar for all considered Heuslers, consistent with their overall comparable band-structure; the peaks in the Kerr angles were traced back to their optical versus magneto-optical contributions. This careful ab initio analysis is extremely helpful in view of engineering the Kerr rotation for technological purposes.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
