Spin reorientation process in Er2Fe14C magnetic material

“…One common set of three line widths was used for all Zeeman subspectra. A procedure of simultaneous fitting of several spectra with interconnected parameters, similar to previous studies [8,12], was applied in order to get a consistent description of spectra throughout the series.…”

“…Similar to Er 2 Fe 14 C compound [8], Er 2−x Gd x Fe 14 C and Er 2−x Pr x Fe 14 C have a tetragonal crystal lattice of the P 4 2 /mmm space group with 68 atoms in elementary cell, where Fe atoms occupy six different positions denoted: 16k 1 , 16k 2 , 8j 1 , 8j 2 , 4e, 4c; rare earth atoms locate themselves at 4f and 4g positions; and carbon atom at 4g position. Planar anisotropy of rare earth sublattices has stronger temperature dependences than axial anisotropy of iron sublattice.…”

Influence of Carbon on Spin Reorientation Processes in Er_2-xR_xFe₁₄C (R = Gd, Pr) - Mössbauer and Magnetometric Studies

“…One common set of three line widths was used for all Zeeman subspectra. A procedure of simultaneous fitting of several spectra with interconnected parameters, similar to previous studies [8,12], was applied in order to get a consistent description of spectra throughout the series.…”

“…Similar to Er 2 Fe 14 C compound [8], Er 2−x Gd x Fe 14 C and Er 2−x Pr x Fe 14 C have a tetragonal crystal lattice of the P 4 2 /mmm space group with 68 atoms in elementary cell, where Fe atoms occupy six different positions denoted: 16k 1 , 16k 2 , 8j 1 , 8j 2 , 4e, 4c; rare earth atoms locate themselves at 4f and 4g positions; and carbon atom at 4g position. Planar anisotropy of rare earth sublattices has stronger temperature dependences than axial anisotropy of iron sublattice.…”

Influence of Carbon on Spin Reorientation Processes in Er_2-xR_xFe₁₄C (R = Gd, Pr) - Mössbauer and Magnetometric Studies

Exchange interactions in R2Fe14B and R2Fe14C compounds where R is a rare-earth

Mössbauer and calorimetric studies of spin reorientation processes in Er_2−xPr_xFe₁₄C