Gyanti Prakash Moharana scite author profile

Realizing the itinerant type of magnetic exchange in Mn-based alloys is quite unusual because of the weak hybridization between Mn-moments and conduction electrons. However, in the current study, we found MnFeGe to exhibit weak itinerant type magnetic character possibly arising due to the hybridization between Mn, Fe atoms with Ge atoms. Here, we present a comprehensive structural and magnetic study on polycrystalline MnFeGe. Rietveld refinement of the XRD pattern confirms that Mn and Fe atoms randomly (atomic disorder) occupy the 2a and 2d sites in MnFeGe. From the magnetic measurements, Curie temperature and saturation moment values are found to be 162 K and 1.58 μ_B⁄(f.u.) at 2 K, respectively. The relative low values of Curie temperature, saturation magnetic moment, and a large value of Rhodes-Wohlfarth ratio (~ 3.4) indicate the weak itinerant ferromagnetic character of the system. The Takahashi spin fluctuation theory analysis further supports the weak itinerant ferromagnetism in MnFeGe. Besides, we also observed Griffiths phase like behavior above the Curie temperature, which is attributed to the presence of atomic disorder in the system. The presence of Griffiths phase is further confirmed by the zero spontaneous magnetization. Our findings demonstrate that MnFeGe is one of the very few Mn-based systems with weak itinerant magnetic behavior.

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Investigation of magnetic order and spin dynamics in Mn doped 3C-SiC

Moharana

Singh

Babu

et al. 2018

Journal of Alloys and Compounds

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Role of spin, phonon and plasmon dynamics on ferromagnetism in Cr doped 3C-SiC

Moharana

Kothari

Narayanan

et al. 2019

Journal of Magnetism and Magnetic Materials

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Enhancement of weak magnetism of 3C–SiC by 3d-transition metal doping

Moharana

Singh

Narayanan

2023

Solid State Communications

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F+ center exchange mechanism and magnetocrystalline anisotropy in Ni-doped 3C-SiC

Moharana

Kothari

Singh

et al. 2022

Journal of Magnetism and Magnetic Materials

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