FP-LAPW investigation of electronic,
magnetic, elastic and thermal properties of Fe-doped zirconium nitride
M. Mohamed Sheik
Sirajuddeen,(a) and I. B. Shameem Banu
(a)-corresponding author email :msheiksiraj@bsauniv.ac.in
(a)-corresponding author email :msheiksiraj@bsauniv.ac.in
1
ABSTRACT
Full Potential- Linear Augmented Plane Wave
(FP-LAPW) method has been employed to study the electronic, magnetic, elastic and
thermal properties of Fe-doped Zirconium nitride. In this work,
Fe-atoms were doped into the super cell of ZrN in doping concentrations
of 12.5%, 25% and 37.5% to replace Zr atoms. Electronic properties such
as band structure and DOS were plotted and compared for the doped compounds. Charge
density contours were plotted for all the doped compounds. The
non-magnetic ZrN doped in different Fe concentrations were found to
be ferromagnetic. Magnetic moments have been calculated and compared. Elastic
properties have been studied and compared with electronic properties. Appearance
of magnetic ordering and its influence with the elastic properties have
been reported. Impact of 3d states of Fe in DOS plot on the elastic nature
of the compounds has been highlighted. Thermalproperties such as Debye
temperature and molar heat capacities at low temperature have been
determined. Debye temperature is found to decrease with higher doping concentrations.
Molar heat capacities are found to increase with higher
concentrations of Fe atoms.
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