2011
DOI: 10.1103/physrevb.84.174406
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Photoemission electron microscopy of three-dimensional magnetization configurations in core-shell nanostructures

Abstract: We present a photoemission electron microscopy method that combines magnetic imaging of the surface and of the inner magnetization in three-dimensional core-shell nanostructures. The structure investigated consists of a cylindrical nickel core that is completely surrounded by a shell of iron oxide and silicon oxide layers. The method enables one to image the magnetization configuration of the nickel core even though the shell is thicker than the mean-free path of the photoelectrons. Characteristic L 3 and L 2 … Show more

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Cited by 57 publications
(69 citation statements)
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“…Several effects mentioned need however to be considered to extract true spatial and contrast information such as plane of focus, extraction voltage, electric field distortion and electron background level. While we illustrated the method with experiments we performed on cylindrical nanowires, it can be applied to any object of size 10−200 nm imaged by shadow XMCD-PEEM, such as those already reported [26,[34][35][36], provided that material parameters such as exchange stiffness and magnetization are known, to perform reliable micromagnetic simulations. In particular, sufficient geometrical information about the sample remains required, as its projected shadow does not characterize fully its shape.…”
Section: Discussionmentioning
confidence: 99%
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“…Several effects mentioned need however to be considered to extract true spatial and contrast information such as plane of focus, extraction voltage, electric field distortion and electron background level. While we illustrated the method with experiments we performed on cylindrical nanowires, it can be applied to any object of size 10−200 nm imaged by shadow XMCD-PEEM, such as those already reported [26,[34][35][36], provided that material parameters such as exchange stiffness and magnetization are known, to perform reliable micromagnetic simulations. In particular, sufficient geometrical information about the sample remains required, as its projected shadow does not characterize fully its shape.…”
Section: Discussionmentioning
confidence: 99%
“…As the X-ray beam is tilted with respect to the normal to the supporting surface, this provides magnetic sensitivity both at the surface of the object, and gives rise to a shadow on the supporting surface, whose inspection yields information about magnetization in the core (Figure 1a,b). This has been named shadow XMCD-PEEM [26]. This provides a technique with an interesting hybrid sensitivity, within the set of microscopy techniques mentioned above.…”
Section: Arxiv:150602866v2 [Cond-matmtrl-sci] 23 Sep 2015mentioning
confidence: 99%
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