J. K. Grepstad scite author profile

Using photoemission electron microscopy in combination with X-ray magnetic linear dichroism, we report reconfiguration upon nanostructuring of the antiferromagnetic domain structure in epitaxial LaFeO3 thin films. Antiferromagnetic (AFM) nanoislands were synthesized using a dedicated process, devised to define nanostructures with magnetic order embedded in a paramagnetic matrix. Significant impact on the AFM domain configuration was observed. Extended domains were found to form along edges parallel to the in-plane ⟨100⟩ crystalline axes of the cubic substrate, with their AFM spin axis parallel to the edge. No such edge-imposed domain configuration was found for nanoislands defined with the edges at 45° with the in-plane crystalline axes. Epitaxial constraints on the film crystalline structure appear to play an important role in the formation of the edge-bound extended AFM domains. The data indicate a magnetostatic origin of this domain reconfiguration.

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Effects of nanostructuring and substrate symmetry on antiferromagnetic domain structure in LaFeO3thin films

Folven

Schöll

Young

et al. 2011

Phys. Rev. B

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Effect of surface roughness, chemical composition, and native oxide crystallinity on the orientation of self-assembled GaN nanowires on Ti foils

et al. 2017

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We report on plasma-assisted molecular beam epitaxial growth of almost randomly oriented, uniformly tilted, and vertically aligned self-assembled GaN nanowires (NWs), respectively, on different types of polycrystalline Ti foils. The NW orientation with respect to the substrate normal, which is affected by an in situ treatment of the foil surface before NW growth, depends on the crystallinity of the native oxide. Direct growth on the as-received foils results in the formation of ensembles of nearly randomly oriented NWs due to the strong roughening of the surface induced by chemical reactions between the impinging elements and Ti. Surface nitridation preceding the NW growth is found to reduce this roughening by transformation of the uppermost layers into TiN and TiO N species. These compounds are more stable against chemical reactions and facilitate the growth of uniformly oriented GaN NW ensembles on the surface of the individual grains of the polycrystalline Ti foils. If an amorphous oxide layer is present at the foil surface, vertically oriented NWs are obtained all across the substrate because this layer blocks the transfering of the epitaxial information from the underlying grains. The control of NW orientation and the understanding behind the achievement of vertically oriented NWs obtained in this study represent an important step towards the realization of GaN NW-based bendable devices on polycrystalline metal foils.

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Photonic-crystal membranes for optical detection of single nano-particles, designed for biosensor application

Grepstad¹,

Kaspar²,

Solgaard³

et al. 2012

Opt. Express

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Abstract:A sensor designed to detect bio-molecules is presented. The sensor exploits a planar 2D photonic crystal (PC) membrane with sub-micron thickness and through holes, to induce high optical fields that allow detection of nano-particles smaller than the diffraction limit of an optical microscope. We report on our design and fabrication of a PC membrane with a nano-particle trapped inside. We have also designed and built an imaging system where an optical microscope and a CCD camera are used to take images of the PC membrane. Results show how the trapped nano-particle appears as a bright spot in the image. In a first experimental realization of the imaging system, single particles with a radius of 75 nm can be detected.

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J. K. Grepstad

Anisotropic work function of clean and smooth low-index faces of aluminium

Antiferromagnetic Domain Reconfiguration in Embedded LaFeO₃ Thin Film Nanostructures

Effects of nanostructuring and substrate symmetry on antiferromagnetic domain structure in LaFeO3thin films

Effect of surface roughness, chemical composition, and native oxide crystallinity on the orientation of self-assembled GaN nanowires on Ti foils

Photonic-crystal membranes for optical detection of single nano-particles, designed for biosensor application

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Resources

About

J. K. Grepstad

Anisotropic work function of clean and smooth low-index faces of aluminium

Antiferromagnetic Domain Reconfiguration in Embedded LaFeO3 Thin Film Nanostructures

Effects of nanostructuring and substrate symmetry on antiferromagnetic domain structure in LaFeO3thin films

Effect of surface roughness, chemical composition, and native oxide crystallinity on the orientation of self-assembled GaN nanowires on Ti foils

Photonic-crystal membranes for optical detection of single nano-particles, designed for biosensor application

Contact Info

Product

Resources

About

Antiferromagnetic Domain Reconfiguration in Embedded LaFeO₃ Thin Film Nanostructures