Coloring and distortion variants of the bcc packing and for the aristotypes BaAl4 and CeMg2Si2
Coloring and distortion variants of the bcc packing and for the aristotypes BaAl4 and CeMg2Si2
Seidel, Stefan; Pöttgen, Rainer
2021-05-26 00:00:00
AbstractThe huge number of intermetallic structure types with many representatives calls for structural systemization. The combination of crystal chemistry with group theory is an efficient tool for such systemization and can be displayed in a concise and compact way via group-subgroup schemes. The present overview deals with such group-subgroup schemes (Bärnighausen trees) for coloring and distortion variants of the bcc packing as well as superstructures that derive from the aristotypes BaAl4 and CeMg2Si2.
http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.pngZeitschrift für Naturforschung Bde Gruyterhttp://www.deepdyve.com/lp/de-gruyter/coloring-and-distortion-variants-of-the-bcc-packing-and-for-the-t1oSLyNqFj
Coloring and distortion variants of the bcc packing and for the aristotypes BaAl4 and CeMg2Si2
AbstractThe huge number of intermetallic structure types with many representatives calls for structural systemization. The combination of crystal chemistry with group theory is an efficient tool for such systemization and can be displayed in a concise and compact way via group-subgroup schemes. The present overview deals with such group-subgroup schemes (Bärnighausen trees) for coloring and distortion variants of the bcc packing as well as superstructures that derive from the aristotypes BaAl4 and CeMg2Si2.
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