[{WikipediaArticle oldid='200759842'}]
[{VerifyArticle user='eertl' template='Standard' date='18. November 2014' page-date='2014' comment='Überprüft, nach Jaros, A., Nussbaumer, A., Nussbaumer, P., Physik compact. Basiswissen 7RG' funder='4' }]
[{ALLOW edit Admin}][{ALLOW view All}][{ALLOW comment All}][{ALLOW verify eertl}]
%%information
%%(font-size: 80%;)
!!!License Information of Images on page
||Image Description||Credit||Artist||License Name||File
| Visualisierung der magnetischen Domänen einer Formgedächtnislegierung (Aufnahme mit CMOS-MagView)| Eigenes Werk| Matesy GmbH| [{Image src='https://www.austria-forum.org/cc/images/slim/by-sa.png' alt='CC BY-SA 3.0' align='center' link='https://www.austria-forum.org/cc/by-sa-30.html' target='_blank'}]| Datei:CMOS Domänen Formgedächtnislegierung.jpg
| Visualisierung der magnetischen Mäanderdomänen-Struktur (Aufnahme mit CMOS-MagView)| Eigenes Werk| Matesy GmbH| [{Image src='https://www.austria-forum.org/cc/images/slim/by-sa.png' alt='CC BY-SA 3.0' align='center' link='https://www.austria-forum.org/cc/by-sa-30.html' target='_blank'}]| Datei:CMOS Mäanderdomänen.jpg
| Visualisierung einer magnetischen Blasendomänen-Struktur(Aufnahme mit CMOS-MagView)| Eigenes Werk| Matesy GmbH| [{Image src='https://www.austria-forum.org/cc/images/slim/by-sa.png' alt='CC BY-SA 3.0' align='center' link='https://www.austria-forum.org/cc/by-sa-30.html' target='_blank'}]| Datei:CMOS magnetische Blasendomänen.jpg
| Growing magnetic domains| Eigenes Werk| MikeRun| [{Image src='https://www.austria-forum.org/cc/images/slim/by-sa.png' alt='CC BY-SA 4.0' align='center' link='https://www.austria-forum.org/cc/by-sa-40.html' target='_blank'}]| Datei:Growing-magnetic-domains.svg
| Animation of moving domain walls in a ferromagnetic material caused by an external magnetic field, observed with a Kerr-effect microscope. The sample of non-oriented electrical steel was magnetised. The animation starts from a demagnetised state and shows the effect of applying an increasing magnetic field in a downwards direction. The animation ends when sample saturates (slow magnetisation, below 0.1 Hz). Light areas have magnetization directed upwards, dark areas have magnetization directed downwards. Width of the image = 0.1 mm. See also Image:Magnetic domain by Zureks.png| Eigenes Werk| Zureks , Chris Vardon| [{Image src='https://www.austria-forum.org/cc/images/slim/by-sa.png' alt='CC BY-SA 3.0' align='center' link='https://www.austria-forum.org/cc/by-sa-30.html' target='_blank'}]| Datei:Moving magnetic domains by Zureks.gif
| Photomicrograph of NdFeB, the magnetic material used to make neodymium rare earth magnets , under a Kerr-microscope, showing the magnetic domain structure. The metal is composed of microscopic crystal grains. The domains are the light and dark stripes faintly visible within each grain. Due to magnetic anisotropy, the crystal lattice of each grain has an "easy" preferred direction of magnetization, and the domains form as stripes roughly parallel to this direction. The magnetization of light and dark domains is opposite, parallel to their long axis. In most of the grains the domains are parallel to the surface, but in the outlined grain the "easy" direction of magnetization is almost vertical, so only the ends of the domains are visible. ).| Eigenes Werk| Gorchy| [{Image src='https://www.austria-forum.org/cc/images/slim/by-sa.png' alt='CC BY-SA 3.0' align='center' link='https://www.austria-forum.org/cc/by-sa-30.html' target='_blank'}]| Datei:NdFeB-Domains.jpg
%%
%%