Anomalous physical properties of underdoped weak-ferromagnetic superconductor RuSr2EuCu2O8
Abstract
Similar to the optimal-doped, weak-ferromagnetic (WFM induced by canted antiferromagnetism, TCurie = 131 K) and superconducting (Tc = 56 K) RuSr2GdCu2O8, the underdoped RuSr2EuCu2O8 (TCurie = 133 K, Tc = 36 K) also exhibited a spontaneous vortex state (SVS) between 16 K and 36 K. The low field (20 G) superconducting hysteresis loop indicates a weak and narrow Meissner state region of average lower critical field Bc1ave(T) = Bc1ave(0)[1 - (T/TSVS)2], with Bc1ave(0) = 7 G and TSVS = 16 K. The vortex melting transition (Tmelting = 21 K) below Tc obtained from the broad resistivity drop and the onset of diamagnetic signal indicates a vortex liquid region due to the coexistence and interplay between superconductivity and WFM order. No visible jump in specific heat was observed near Tc for Eu- and Gd-compound. This is not surprising, since the electronic specific heat is easily overshadowed by the large phonon and weak-ferromagnetic contributions. Furthermore, a broad resistivity transition due to low vortex melting temperature would also lead to a correspondingly reduced height of any specific heat jump. Finally, with the baseline from the nonmagnetic Eu-compound, specific heat data analysis confirms the magnetic entropy associated with antiferromagnetic ordering of Gd3+ (J = S = 7/2) at 2.5 K to be close to NAk ln8 as expected.
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