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Philosophical Magazine Volume 83, 2003 - Issue 28
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Original Articles

Strain relaxation in the epitaxy of La2/3Sr1/3MnO3 grown by pulsed-laser deposition on SrTiO3(001)

J.-L. Maurice†† Unité Mixte de Physique CNRS/Thales, Domaine de Corbeville, 91404 Orsay Cedex, FranceView further author information
,
F. Pailloux‡‡ Unité Mixte de Physique CNRS/Thales, Domaine de Corbeville, 91404 Orsay Cedex, FranceView further author information
,
A. Barthélémy Unité Mixte de Physique CNRS/Thales, Domaine de Corbeville, 91404 Orsay Cedex, France; Université Paris-Sud, 91405 Orsay Cedex, France
,
O. Durand Thales Research and Technology, Domaine de Corbeville, 91404 Orsay Cedex, France
,
D. Imhoff Laboratoire de Physique des Solides, Bâtiment 510, Université Paris-Sud, 91405 Orsay Cedex, France
,
R. Lyonnet Unité Mixte de Physique CNRS/Thales, Domaine de Corbeville, 91404 Orsay Cedex, France
,
A. Rocher Centre d’Elaboration des Matériaux et d’Etudes Structurales, CNRS, 29 rue Jeanne Marvig, B. P. 4377, 31055 Toulouse Cedex, France
&
J.-P. Contour Unité Mixte de Physique CNRS/Thales, Domaine de Corbeville, 91404 Orsay Cedex, France
 show all
Pages 3201-3224 | Received 08 Apr 2003, Accepted 02 Jul 2003, Published online: 20 Oct 2011
 
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Abstract

With a Curie point at 370 K, the half-metal (La0.7Sr0.3)MnO3 (LSMO) is one of the most interesting candidates for electronic devices based on tunnel magnetoresistance. SrTiO3 (STO) is up to now the best substrate for the epitaxy of suitable thin films of LSMO. The pseudocubic unit cell of rhombohedral LSMO has a parameter a LSMO such that (a STOa LSMO)/a LSMO = + 0.83% (where a STO is the parameter of cubic STO) and an angle of 90.26°. As strained growth is tetragonal, relaxation implies recovery of both the pseudocubic parameter and of the original angle. In the LSMO layers that we prepare by pulsed-laser deposition, we show that these two processes are quite independent. The angular distortion is partially recovered by twinning in films 25 nm thick, while recovery of the parameter never occurs in the thickness range that we explored (up to 432 nm). A relaxation, however, takes place above a thickness of 100 nm, associated with a transition from two-dimensional to three-dimensional columnar growth. It is accompanied by chemical fluctuations. Our magnetic measurements exhibit Curie temperatures and magnetic moments very close to the bulk values in those layers where the crystal parameter is strained but the angle partially relaxed.

Acknowledgements

The authors are indebted to A. Revcolevschi (Université Paris-Sud) for providing the LSMO targets, F. Lalu (Centre de Spectrométrie Nucléaire et de Spectrométrie de Masse, CNRS, Orsay) and J. Siejka (Groupe de Physique des Solides, CNRS, Paris) for the RBS analyses, and É. Jacquet (Unité Mixte de Physique CNRS/Thales) for his help with PLD. We thank A. Anane, A. Fert (Unité Mixte de Physique CNRS/Thales) and J. Castaing (Centre de recherche et de restauration des musées de France, CNRS, Paris) for fruitful discussions.

Notes

†† Email: [email protected].

‡‡ Present address: Laboratoire de Métallurgie Physique, Université de Poitiers, Poitiers, France.

Additional information

Notes on contributors

J.-L. MauriceFootnote††

†† Email: [email protected].

F. PaillouxFootnote‡‡

‡‡ Present address: Laboratoire de Métallurgie Physique, Université de Poitiers, Poitiers, France.

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