Structure of Fe–Cr–N nanocrystalline films with the perpendicular magnetic anisotropy

“…The best data utilizing this effect to date was attained by making Fe nanowires to be formed by decomposition from the single crystal La 0:5 Sr 0:5 FeO 3 . 13) Here, we focus on the Fe-Cr system, where the ferromagnetic Fe-rich and paramagnetic Cr-rich phases can be separated below about 820 C. This system was intensively investigated by Peng et al, [14][15][16] which have shown that a fairly large anisotropy (H c? is about twice as large as H ck ) can be attained in a N 2 gas atmosphere.…”

Formation of Columnar-Shaped Structure of Fe in Fe–Cr–Sn Thin Films and Its Shape-Magnetic Anisotropy

“…The best data utilizing this effect to date was attained by making Fe nanowires to be formed by decomposition from the single crystal La 0:5 Sr 0:5 FeO 3 . 13) Here, we focus on the Fe-Cr system, where the ferromagnetic Fe-rich and paramagnetic Cr-rich phases can be separated below about 820 C. This system was intensively investigated by Peng et al, [14][15][16] which have shown that a fairly large anisotropy (H c? is about twice as large as H ck ) can be attained in a N 2 gas atmosphere.…”

Formation of Columnar-Shaped Structure of Fe in Fe–Cr–Sn Thin Films and Its Shape-Magnetic Anisotropy

Formation of Columnar-Shaped Structure of Fe in Fe–Cr–Sn Thin Films and Its Shape-Magnetic Anisotropy