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+====== ReMagX ======
+===== About =====
+{{:remagx_icon_01.jpg?nolink&200 |}}
+ReMagX is a scientific software to calculate and fit the specular x-ray
+ reflection from a thin film sample taking into account magnetic
+contributions. It has been developed during the last years at the
+Max-Planck-Institute for Metal Research in Stuttgart, Germany.
+The program is able to simulate standard non-magnetic x-ray reflectivity
+for variable energies based upon the so called Parratt formalism.
+However, the real aim and strength of ReMagX is the simulation of the
+reflectivity from a magnetic multilayer under circular polarized x-rays.
+By calculating the specular reflection of a transition metal sample, e.g.
+Co/Cu multilayer, at the L-edge of Co and taking into account variations
+in the reflectivity based upon the XMCD effect a dichroic reflectometry
+is available.
+===== Motivation =====
+Materials composed of several thin layers, so called multilayers, are of
+great scientific interest. The reduced dimensionality and/or the existence
+f many interfaces can lead to novel physical phenomena. Magnetic functional
+materials and films are of interest for data storage devices such as hard
+disks, read heads and sensors.
+X-ray resonant reflectometry (XRR) is the ideal tool to study the depth
+resolved and element-specific electronic structure of multilayers.
+Besides of the structural parameters of the thin film like thickness and
+roughness one is sensitive to the optical constants which includes effects like
+magnetic profiles, element density profiles, electronic reconstruction and strain effects.
+To investigate the magnetism in such systems,
+a techniqe able to probe the local magnetic moments in an element selective
+way is desirable. X-ray Magnetic Reflectometry is such a technique. By making
+use of the x-ray magnetic circular dichroism (XMCD) as additional contrast for
+standard x-ray reflectivity a method is available to probe chemical and magnetic
+depth profiles of thin films.
+===== Features =====
+  * Three different algorithms for reflectivity calculation (Parratt/Matrix(Zak)/Full Matrix)\\
+  * Sample definition either as material-profile or element-profile\\
+  * Script language for maximum flexibility\\
+  * Parallelized algorithms for best performance\\
+  * Reflectivity and tranmission simulation
+  * Adaptive slicing/layer segmentation module\\
+  * Two different methods for optical density calculation\\
+  * Processes optical-constant database files for maximum flexibility\\
+  * Variable x-ray polarizations\\
+  * Magnetism on a per-layer base or by introducing artificial magnetic moments\\
+  * Four different fit routines (Simplex, Genetic Algorithm, Levenberg-Marquardt, Simulated Annealing)\\
+  * Map calculation module
+  * Four different numerical precision modes
+  * Data import modul \\
+===== Read More =====
+  * [[ReMagX|ReMagX]]
+  * [[News|News]]
+  * [[Changes|Changelog]]
+  * [[Wanted Features|Feature Request]]
+  * [[Bug Report|Bug Report]]
+  * [[Downloads|Downloads]]
+  * [[Screenshots|Screenshots]]
+  * [[Documentation:Main|Documentation]]
+  * [[References|References]]
+  * [[Publications|Publications]]
+  * [[Links|Links]]
+  * [[Copyright|Copyright]]
+----