This article provides a brief overview of advanced magnetic X-ray spectro-microscopies that are widely used in characterizing mesoscopic magnetic materials. Common to those techniques are various X-ray magnetic dichroism effects that are used as magnetic contrast mechanism. A particular interest is to use those techniques to image the underlying microscopic spin structures in magnetic materials with high spatial resolution and to ultimately resolve their full 3D mesoscale characteristics with elemental sensitivity, as well as their ultrafast dynamics upon excitations with field and current pulses. Recent research examples using various magnetic X-ray spectro-microscopies are presented to showcase their specific features with a focus on imag...
Ultrafast x-ray pulses (p-sec to f-sec) promise to be an ideal tool to probe the dynamics of magneti...
Ultrafast magnetic writing using laser, current, and field pulses has caught the interest of scienti...
Magnetic soft X-ray microscopy allows for imaging magnetic structures at a spatial resolution down t...
The magnetic properties of matter continue to be a vibrant research area driven both by scientific c...
Properties, behavior, and functionalities of magnetic materials are largely determined by microscopi...
Understanding how spins move in time and space is the aim of both fundamental and applied research i...
Magnetic x-ray microdiffraction uses the structural specificity of x-ray diffraction to probe comple...
The exchange length and the precession frequency of the magnetization determine the fundamental leng...
The magnetic properties of low dimen-sional solid state matter is of the utmost interest both scient...
X-ray magnetic circular dichroism yields at inner-core absorption edges large values up to 50%. This...
The magnetic domain configuration of a system reveals a wealth of information about the fundamental ...
The soft x-ray spectral region contains important core levels of 3d transition and rare earth elemen...
Oral presentation given at the Nano and giga challenges in electronics, photonics and renewable ener...
Heterogeneity in magnetization (M) is ubiquitous in modern systems. Even in nominally homogeneous ma...
Magnetic soft X-ray microscopy combines 15nm spatial resolution with 70ps time resolution and elemen...
Ultrafast x-ray pulses (p-sec to f-sec) promise to be an ideal tool to probe the dynamics of magneti...
Ultrafast magnetic writing using laser, current, and field pulses has caught the interest of scienti...
Magnetic soft X-ray microscopy allows for imaging magnetic structures at a spatial resolution down t...
The magnetic properties of matter continue to be a vibrant research area driven both by scientific c...
Properties, behavior, and functionalities of magnetic materials are largely determined by microscopi...
Understanding how spins move in time and space is the aim of both fundamental and applied research i...
Magnetic x-ray microdiffraction uses the structural specificity of x-ray diffraction to probe comple...
The exchange length and the precession frequency of the magnetization determine the fundamental leng...
The magnetic properties of low dimen-sional solid state matter is of the utmost interest both scient...
X-ray magnetic circular dichroism yields at inner-core absorption edges large values up to 50%. This...
The magnetic domain configuration of a system reveals a wealth of information about the fundamental ...
The soft x-ray spectral region contains important core levels of 3d transition and rare earth elemen...
Oral presentation given at the Nano and giga challenges in electronics, photonics and renewable ener...
Heterogeneity in magnetization (M) is ubiquitous in modern systems. Even in nominally homogeneous ma...
Magnetic soft X-ray microscopy combines 15nm spatial resolution with 70ps time resolution and elemen...
Ultrafast x-ray pulses (p-sec to f-sec) promise to be an ideal tool to probe the dynamics of magneti...
Ultrafast magnetic writing using laser, current, and field pulses has caught the interest of scienti...
Magnetic soft X-ray microscopy allows for imaging magnetic structures at a spatial resolution down t...