Add to ORKGProperties, behavior, and functionalities of magnetic materials are largely determined by microscopic spin textures, particularly their formation into domains, their coupling mechanisms and their dynamic behavior. Advanced characterization tools are prerequisite to fundamentally understand magnetic materials and control spins for novel magnetic applications. Magnetic microscopies allow us to image directly the static and dynamic features of the relevant microscopic magnetization structures in advanced magnetic materials and thus provide detailed and direct insight into underlying physical phenomena. A large variety of magnetic imaging techniques has become available with particular strengths but also certain limitations. Essential features ...
Imaging nanoscale magnetic structures and their fast dynamics is scientifically interesting and tech...
The availability of intense soft x-ray beams with tunable energy and polarization has pushed the dev...
Understanding how spins move in time and space is the aim of both fundamental and applied research i...
X-ray dichroism microscopy is a new method for microscopic mapping of magnetic domains at surfaces, ...
Two variants of photon-based soft x-ray microscopy using zone plate lenses (scanning and imaging) of...
The magnetic properties of matter continue to be a vibrant research area driven both by scientific c...
The magnetic properties of low dimen-sional solid state matter is of the utmost interest both scient...
Magnetic soft X-ray microscopy allows for imaging magnetic structures at a spatial resolution down t...
This article provides a brief overview of advanced magnetic X-ray spectro-microscopies that are wide...
Heterogeneity in magnetization (M) is ubiquitous in modern systems. Even in nominally homogeneous ma...
The magnetic properties of low dimensional solid state matter is of the utmost interest both scienti...
Magnetic x-ray microdiffraction uses the structural specificity of x-ray diffraction to probe comple...
The magnetic domain configuration of a system reveals a wealth of information about the fundamental ...
Magnetic soft X-ray microscopy combines 15nm spatial resolution with 70ps time resolution and elemen...
X-ray magnetic circular dichroism yields at inner-core absorption edges large values up to 50%. This...
Imaging nanoscale magnetic structures and their fast dynamics is scientifically interesting and tech...
The availability of intense soft x-ray beams with tunable energy and polarization has pushed the dev...
Understanding how spins move in time and space is the aim of both fundamental and applied research i...
X-ray dichroism microscopy is a new method for microscopic mapping of magnetic domains at surfaces, ...
Two variants of photon-based soft x-ray microscopy using zone plate lenses (scanning and imaging) of...
The magnetic properties of matter continue to be a vibrant research area driven both by scientific c...
The magnetic properties of low dimen-sional solid state matter is of the utmost interest both scient...
Magnetic soft X-ray microscopy allows for imaging magnetic structures at a spatial resolution down t...
This article provides a brief overview of advanced magnetic X-ray spectro-microscopies that are wide...
Heterogeneity in magnetization (M) is ubiquitous in modern systems. Even in nominally homogeneous ma...
The magnetic properties of low dimensional solid state matter is of the utmost interest both scienti...
Magnetic x-ray microdiffraction uses the structural specificity of x-ray diffraction to probe comple...
The magnetic domain configuration of a system reveals a wealth of information about the fundamental ...
Magnetic soft X-ray microscopy combines 15nm spatial resolution with 70ps time resolution and elemen...
X-ray magnetic circular dichroism yields at inner-core absorption edges large values up to 50%. This...
Imaging nanoscale magnetic structures and their fast dynamics is scientifically interesting and tech...
The availability of intense soft x-ray beams with tunable energy and polarization has pushed the dev...
Understanding how spins move in time and space is the aim of both fundamental and applied research i...