Pressure Effect on Transport Properties of EuNi(Si1-xGex)3 Compounds

The compounds of EuNi(Si1−xGex)3 order antiferromagnetically. At the temperature TC below the Ńeel temperature TN, EuNiSi3 (x = 0) shows an additional magnetic transition into ferro-magnetic state. TN decreases monotonously with increasing the Ge composition x. The Curie temperature TC decreases rap...

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Bibliographic Details
Published in:Physics procedia 2015, Vol.75, p.884-889
Main Authors: Uchima, Kiyoharu, Takaesu, Yoshinao, Arakaki, Nozomi, Hirakawa, Sentaro, Kakihana, Masashi, Ashitomi, Yosuke, Nishimura, Kengo, Suzuki, Fuminori, Yara, Tomoyuki, Hedo, Masato, Nakama, Takao, Yagasaki, Katsuma, Matsubayashi, Kazuyuki, Uwatoko, Yoshiya
Format: Article
Language:English
Subjects:
Electrical resistivity
Magnetic phase transition
Pressure effect
Thermopower
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Summary:The compounds of EuNi(Si1−xGex)3 order antiferromagnetically. At the temperature TC below the Ńeel temperature TN, EuNiSi3 (x = 0) shows an additional magnetic transition into ferro-magnetic state. TN decreases monotonously with increasing the Ge composition x. The Curie temperature TC decreases rapidly with increasing x and vanishes at the critical composition x ≈ 0.3. We have measured the electrical resistivity and thermopower of EuNi(Si0.8Ge0.2)3, which is a compound near to the boundary between the ferromagnetic and antiferromagnetic ground states in the phase diagram for EuNi(Si1−xGex)3 system, under pressures up to 1.8GPa at temperatures from 2 to 300K. The anomalies in ρ(T) and S(T) curves of EuNi(Si0.8Ge0.2)3 are observed at TC = 16K and TN = 34K at ambient pressure. Both TC and TN increase linearly with increasing pressure. The temperature variations of ρ and S of EuNi(Si0.8Ge0.2)3 at P = 1.8GPa are almost the same as those of EuNi(Si0.9Ge0.1)3 (x=0.1) at ambient pressure, revealing that the effect of pressure on TN and TC is the same as that of the increase of Si concentration. The pressure and atomic composition dependences of the magnetic transition temperatures TN and TC can be expressed by using the Grüneisen parameters. These results indicate that the changes of TN and TC are attributed to the change of atomic volume induced by the applying pressure or the atomic substitution.
ISSN:1875-3892
1875-3892
DOI:10.1016/j.phpro.2015.12.114