Crystal structure, magnetic and thermal physical properties of (Formula presented.) stannide are reported on. From the magnetic susceptibility measurements, a divalent state of Eu rare earth element is determined together with an antiferromagnetic (AFM) order at 11 K. By applying magnetic field, the magnetic behavior variation reveals a complex magnetic structure. Above a critical field (Formula presented.), a ferromagnetic (FM)-like character starts to prevail. AFM and FM regimes are separated by a metamagnetic region. Heat capacity measurements confirm this behavior.
The Magnetic Field Induced Ferromagnetism in EuPd2Sn4 Novel Compound
Gastaldo, Federica;Giovannini, Mauro
2021-01-01
Abstract
Crystal structure, magnetic and thermal physical properties of (Formula presented.) stannide are reported on. From the magnetic susceptibility measurements, a divalent state of Eu rare earth element is determined together with an antiferromagnetic (AFM) order at 11 K. By applying magnetic field, the magnetic behavior variation reveals a complex magnetic structure. Above a critical field (Formula presented.), a ferromagnetic (FM)-like character starts to prevail. AFM and FM regimes are separated by a metamagnetic region. Heat capacity measurements confirm this behavior.
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