Your search keyword '"Hallsteinsen, I"' showing total 4 results

1. Shape-imposed anisotropy in antiferromagnetic complex oxide nanostructures

Author

Bang, AD, Hallsteinsen, I, Chopdekar, RV, Olsen, FK, Slöetjes, SD, Kjærnes, K, Arenholz, E, Folven, E, and Grepstad, JK

Subjects

Physical Sciences, Engineering, Technology, Applied Physics

Abstract

In this study, we report on a shape-imposed magnetic anisotropy in micro- and nanostructures defined in antiferromagnetic (AF) LaFeO3 (LFO) thin films. Two distinct types of structures are investigated: embedded magnets created via ion implantation and free-standing magnets created via ion milling. Using a combination of x-ray photoemission electron microscopy and x-ray absorption spectroscopy, we examine the impact of the structure type, AF layer thickness, and crystal geometry on the Néel vector orientation in these structures. We demonstrate a distinct shape-imposed anisotropy in embedded and free-standing structures alike and show that both parallel and perpendicular alignments of the AF spin axis with respect to structure edges can be achieved by variation of the AF layer thickness and the orientation of the structure edges with respect to the LFO crystalline axes. This work demonstrates how the fabrication procedure affects the magnetic order in thin film AF nanostructures and shows how nanoscale patterning can be used to control the orientation of the Néel vector in epitaxial oxide thin films.

Published

2019

2. Shape-imposed anisotropy in antiferromagnetic complex oxide nanostructures

Author

Bang, AD, Hallsteinsen, I, Chopdekar, RV, Olsen, FK, Slöetjes, SD, Kjærnes, K, Arenholz, E, Folven, E, and Grepstad, JK

Subjects

Applied Physics, Physical Sciences, Engineering, Technology

Abstract

In this study, we report on a shape-imposed magnetic anisotropy in micro- and nanostructures defined in antiferromagnetic (AF) LaFeO3 (LFO) thin films. Two distinct types of structures are investigated: embedded magnets created via ion implantation and free-standing magnets created via ion milling. Using a combination of x-ray photoemission electron microscopy and x-ray absorption spectroscopy, we examine the impact of the structure type, AF layer thickness, and crystal geometry on the Néel vector orientation in these structures. We demonstrate a distinct shape-imposed anisotropy in embedded and free-standing structures alike and show that both parallel and perpendicular alignments of the AF spin axis with respect to structure edges can be achieved by variation of the AF layer thickness and the orientation of the structure edges with respect to the LFO crystalline axes. This work demonstrates how the fabrication procedure affects the magnetic order in thin film AF nanostructures and shows how nanoscale patterning can be used to control the orientation of the Néel vector in epitaxial oxide thin films.

Published

2019

3. Néel vector reorientation in ferromagnetic/antiferromagnetic complex oxide nanostructures

Author

Bang, AD, Hallsteinsen, I, Olsen, FK, Slöetjes, SD, Retterer, ST, Scholl, A, Arenholz, E, Folven, E, and Grepstad, JK

Subjects

Physical Sciences, Engineering, Technology, Applied Physics

Abstract

In this study, we report on a temperature-driven antiferromagnetic (AF) spin reorientation transition in micro- and nanostructures of AF/ferromagnetic (FM) LaFeO3/La0.7Sr0.3MnO3 thin film bilayers. Using a combination of x-ray photoemission electron microscopy and x-ray absorption spectroscopy, the Néel vector is shown to reorient 90° as a result of the competition between a shape-imposed anisotropy in the AF layer and interface coupling to the adjacent FM layer. We demonstrate how a temperature dependence of the AF/FM spin configuration in line-shaped nanomagnets can be tuned by variation of their linewidth. This work provides insight into the AF/FM interface exchange coupling in complex oxide heterostructures and the possibilities of spin control by nanostructuring in thin film spintronics.

Published

2019

4. Néel vector reorientation in ferromagnetic/antiferromagnetic complex oxide nanostructures

Author

Bang, AD, Hallsteinsen, I, Olsen, FK, Slöetjes, SD, Retterer, ST, Scholl, A, Arenholz, E, Folven, E, and Grepstad, JK

Subjects

Applied Physics, Physical Sciences, Engineering, Technology

Abstract

In this study, we report on a temperature-driven antiferromagnetic (AF) spin reorientation transition in micro- and nanostructures of AF/ferromagnetic (FM) LaFeO3/La0.7Sr0.3MnO3 thin film bilayers. Using a combination of x-ray photoemission electron microscopy and x-ray absorption spectroscopy, the Néel vector is shown to reorient 90° as a result of the competition between a shape-imposed anisotropy in the AF layer and interface coupling to the adjacent FM layer. We demonstrate how a temperature dependence of the AF/FM spin configuration in line-shaped nanomagnets can be tuned by variation of their linewidth. This work provides insight into the AF/FM interface exchange coupling in complex oxide heterostructures and the possibilities of spin control by nanostructuring in thin film spintronics.

Published

2019