Matches in Nanopublications for { ?s ?p <https://doi.org/10.18710/GHHUNU> ?g. }
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- Stress-free%20models%20of%20~500-nm-long%20grains%20yield%20~2%20times%20higher%20Mrs%2FMs%20and%20~1.5%20times%20higher%20Hc%20with%20microstructures%20than%20without. obtainsSupportFrom GHHUNU assertion.
- The%20resulting%20coercivities%20Hc%20are%20up%20to%201.5%20times%20higher%2C%20and%20the%20Mrs%2FMs%20ratios%20are%20twice%20as%20high%20for%20the%20grains%20with%20exsolution%20than%20for%20those%20without. obtainsSupportFrom GHHUNU assertion.
- Comparison%20to%2010%20times%20higher%20measured%20bulk%20Mrs%2FMs%20and%20Hc%20implies%20that%20internal%20stress%20from%20exsolution%20structures%20is%20the%20dominant%20effect. obtainsSupportFrom GHHUNU assertion.
- The%20internal%20stress%20is%20quantified%20to%20about%20100%20MPa. obtainsSupportFrom GHHUNU assertion.
- The%20formation%20of%20lamellae%20has%20two%20effects%20on%20magnetic%20properties%3A%20%281%29%20The%20apparent%20grain%20size%20is%20geometrically%20reduced%2C%20increasing%20Mrs%20and%20Hc%20by%20up%20to%20a%20factor%20of%202%3B%20%282%29%20The%20formation%20of%20lamellae%20produces%20internal%20stress%20fields%2C%20which%20provide%20additional%20anisotropy%20energy%20that%20increases%20Mrs%20and%20Hc%20by%20up%20to%20a%20factor%20of%2010. obtainsSupportFrom GHHUNU assertion.