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López, A.; Azevedo, I. Souza; Musa, J. E.; Baggio‐Saitovitch, E.; Garcia, Sheila

doi:10.1103/physrevb.68.134516

Cited by 8 publications

(7 citation statements)

References 28 publications

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“…Therefore, the above mentioned magnetic behavior is not due to a structural change, but to a weakening of the magnetic interaction between the Ru magnetic moments of the Ru sublattice. This behavior was also observed when Ru is substituted by other elements [13][14][15][16][17]. At temperatures below 40 K the M(T) curves show an increase due to the paramagnetic contribution of the Gd ions.…”

Section: Resultssupporting

confidence: 53%

“…Several studies of cation substitutions in the Ru-1212 compound have been reported in the literature [13][14][15][16][17][18][19][20]. Their effects in the superconducting and magnetic properties depend on the type of cation and the substitutional site.…”

Section: Introductionmentioning

confidence: 99%

“…Their effects in the superconducting and magnetic properties depend on the type of cation and the substitutional site. Studies in the Ru 1-x Sn x -1212 system [13,14] show that the Sn doping suppresses the ferromagnetic moment in the RuO 2 layer, decreasing T M but, on the other hand, T c increases with the increase of Sn content. These results were attributed to the diamagnetic properties of Sn ions that reduce the total magnetic moment in the RuO 2 layers and increase the hole transfer to the CuO 2 layers.…”

Section: Introductionmentioning

confidence: 99%

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Study of the crystal structure, superconducting and magnetic properties of Ru_1−xFe_xSr₂GdCu₂O₈

Escamilla¹,

Morales²,

Akachi³

et al. 2005

Supercond. Sci. Technol.

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Samples of the Ru 1-x Fe x Sr 2 GdCu 2 O 8 system with x = 0, 0.025, 0.05, 0.075, 0.1, and 0.2, were prepared and their structural, superconducting and magnetic properties were studied.Rietveld refinement of the X-ray diffraction patterns show that the Fe substitution occurs in both Ru and Cu sites. An increase of Fe concentration produces no significant changes in the bond angle Ru-O(3)-Ru, which is a measure of the rotation of the RuO 6 octahedra around the c-axis, and also in the bond angle φ, (Ru-O(1)-Cu), which is a measure of the canting of the RuO 6 octahedra. On the other hand, the bond angle Cu-O(2)-Cu, which is a measure of the buckling of the CuO 2 layer, has a slight tendency to decrease with the increase of Fe content. We found that both ferromagnetic and superconducting transition temperatures are reduced with the increase of Fe concentration. Analysis related to the decay of the superconducting and ferromagnetic states is presented.

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Section: Resultssupporting

confidence: 53%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Study of the crystal structure, superconducting and magnetic properties of Ru_1−xFe_xSr₂GdCu₂O₈

Escamilla¹,

Morales²,

Akachi³

et al. 2005

Supercond. Sci. Technol.

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“…Since the discovery of the so called magnetic superconductors RuSr 2 RCu 2 O 8 (Ru-1212) and RuSr 2 (R,Ce) 2 Cu 2 O 10−δ (Ru-1222), with R=Gd, Eu, 1,2 considerable effort has been devoted to the understanding of the interplay between the ferromagnetic (FM) component, emerging from the long-range order of the Ru moments, and the onset of the superconducting (SC) state. 3 Among several important topics, the possibility of π-phase formation across the RuO 2 layers, 4,5,6 the itinerant or localized character of the magnetism of the Ru moments, 7,8,9 the magnetic phase separation scenario of nanoscale FM clusters with superconductivity nucleating only in the surrounding antiferromagnetic matrix, 10,11 and the possibility of triplet paring, 8 have been considered to explain how this puzzling coexistence may occur. On the other hand, some important superconducting parameters have been less thoroughly investigated.…”

Section: Introductionmentioning

confidence: 99%

Lower critical field and intragrain critical current density in the ruthenate-cuprate RuSr2Gd1.5Ce0.5Cu2O10

2006

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The lower critical field of the grains, Hc1, and the intragrain critical current density, Jc, were determined for the superconducting ruthenate-cuprate RuSr2Gd1.5Ce0.5Cu2O 10−δ [Ru-1222(Gd)] through a systematic study of the hysteresis in magnetoresistance loops. A reliable method, based on the effects of the magnetization of the grains on the net local field at the intergranular junctions is provided, circumventing the problem of the strong masking of the superconducting diamagnetic signal by the ferromagnetic background. The temperature dependency of Hc1 and Jc both exhibit a smooth increase on cooling without saturation down to T /TSC ∼ = 0.2. The obtained Hc1 values vary between 150 and 1500 Oe in the 0.2 ≤ T /TSC ≤ 0.4 interval, for samples annealed in an oxygen flow; oxygenation under high pressure (50 atm) leads to a further increase. These values are much larger than the previously reported rough assessments (25-50 Oe), using conventional magnetization measurements. High Jc values of ∼ 10 7 A/cm 2 , comparable to the high-Tc cuprates, were obtained. The Hc1(T ) and Jc(T ) dependencies are explained in the context of a magnetic phase separation scenario.

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“…In the strive to find new superconductor materials, many studies have been done in which one or more of the elements present in the different superconductor families are substituted by others. It has been found that the substitution of a fraction of the Cu atoms by other 3d-metals rapidly downgrades the T c of the RE-123 and RE-124 families, especially if the substitution takes place in the CuO 2 planes [7,[15][16][17][18][19][20], so it is important to determine where the 3d-metal atoms go to in the superconductor structure.…”

mentioning

confidence: 99%

Mössbauer study of the (Ru1-xFex)Sr2GdCu2O8-δ system and two of its possible impurities: SrRuO3 and Gd2CuO4

et al. 2006

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Mössbauer spectra of a series of samples of the weak ferromagnetic ðRu 1Àx Fe x Þ Sr 2 GdCu 2 O 8Àδ system reveal the existence of three dissimilar sites where the Fe atoms can go into the structure. The Mössbauer parameters of the three observed quadrupole doublets, together with the relative population on each site, allow the following site assignment for the iron atoms: Fe 3+ in four-fold planar coordination at Ru sites; Fe 3+ in five-fold pyramidal coordination also at Ru sites and Fe 2+ or Fe 3+ in five-fold coordination at Cu sites. This assignment implies the formation of oxygen-vacancies at the charge reservoir (the RuO 2 planes) that affect the structure and the superconducting and magnetic properties of the undoped system. Moreover, a close correlation between the oxygen content, calculated through the Mössbauer data, and the measured cell volume is established. We also report the Mössbauer spectra of two compounds (SrRu 0.95 Fe 0.05 O 3 and Gd 2 Cu 0.95 Fe 0.05 O 4 ) that could be formed as impurities during the synthesis of our samples.

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119SnMössbauer spectroscopy in the magnetic superconductor(Ru,

Cited by 8 publications

References 28 publications

Study of the crystal structure, superconducting and magnetic properties of Ru_1−xFe_xSr₂GdCu₂O₈

Study of the crystal structure, superconducting and magnetic properties of Ru_1−xFe_xSr₂GdCu₂O₈

Lower critical field and intragrain critical current density in the ruthenate-cuprate RuSr2Gd1.5Ce0.5Cu2O10

Mössbauer study of the (Ru1-xFex)Sr2GdCu2O8-δ system and two of its possible impurities: SrRuO3 and Gd2CuO4

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119SnMössbauer spectroscopy in the magnetic superconductor(Ru,

Cited by 8 publications

References 28 publications

Study of the crystal structure, superconducting and magnetic properties of Ru1−xFexSr2GdCu2O8

Study of the crystal structure, superconducting and magnetic properties of Ru1−xFexSr2GdCu2O8

Lower critical field and intragrain critical current density in the ruthenate-cuprate RuSr2Gd1.5Ce0.5Cu2O10

Mössbauer study of the (Ru1-xFex)Sr2GdCu2O8-δ system and two of its possible impurities: SrRuO3 and Gd2CuO4

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Product

Resources

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Study of the crystal structure, superconducting and magnetic properties of Ru_1−xFe_xSr₂GdCu₂O₈

Study of the crystal structure, superconducting and magnetic properties of Ru_1−xFe_xSr₂GdCu₂O₈