Journal article
Nanoscale magneto-structural coupling in as-deposited and freestanding single-crystalline Fe7Pd3 ferromagnetic shape memory alloy thin films
A Landgraf, AM Jakob, Y Ma, SG Mayr
Science and Technology of Advanced Materials | NATL INST MATERIALS SCIENCE | Published : 2013
Abstract
Ferromagnetic shape memory alloys are characterized by strong magneto-mechanical coupling occurring at the atomic scale causing large magnetically inducible strains at the macroscopic level. Employing combined atomic and magnetic force microscopy studies at variable temperature, we systematically explore the relation between the magnetic domain pattern and the underlying structure for as-deposited and freestanding single-crystalline Fe7Pd3 thin films across the martensite-austenite transition. We find experimental evidence that magnetic domain appearance is strongly affected by the presence and absence of nanotwinning. While the martensite-austenite transition upon temperature variation of a..
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Funding Acknowledgements
We acknowledge M Hennes for useful discussions, Dr F Frost for the MFM measurement shown in figure 2(a), A Mill for FIB cutting and Professor B Rauschenbach for general support. This work was funded by the German Science Foundation (DFG), Project MICROPUMP and was partially performed within the Leipzig Graduate School of Natural Sciences (BuildMoNa), established by the DFG within the German Excellence Initiative.