Evidence for two distinct scales of current flow in polycrystalline Sm and Nd iron oxypnictides

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We prepared polycrystalline SmFeAsO 1-x F x (Sm1111) bulk samples by sintering and hot isostatic pressing (HIP) in order to study the effects of phase purity and relative density on the intergranular current density. Sintered and HIPped Sm1111 samples are denser with fewer impurity phases, such as SmOF and the grain boundary wetting phase, FeAs. We found quite complex magnetization behavior due to variations of both the inter and intragranular current densities. Removing porosity and reducing second phase content enhanced the intergranular current density, but HIPping reduced T c and the intragranular current density, due to loss of fluorine and reduction of T c . We believe that the HIPped samples are amongst the purest polycrystalline 1111 samples yet made. However, their intergranular current densities are still small, providing further evidence that polycrystalline pnictides, like polycrystalline cuprates, are intrinsically granular. 2 IntroductionThe discovery of superconductivity in LaFeAs(O,F) with critical temperature T c of 26 K was announced by Hosono et al. 1 in February 2008. This event prompted an army of physicists, chemists and material scientists to study these materials and shortly thereafter many other Fe-based superconductors were discovered that are now grouped into 4 families, which are generally referred to as "1111" for REFeAsO, "122" for AEFe 2 As 2 , 2 "111" for LiFeAs 3 and "11" for Fe(Te,Se) 4 where RE denotes rare earth and AE denotes alkali earth. The critical temperatures, in the optimally doped compounds, range from 19 K to 55 K and have very high upper critical fields approaching ~300 T for 1111 5 and ~100 T for 122 doped with potassium 6 or cobalt 7 . These favorable characteristics make it urgent to explore their potential for applications with the hope that practical conductors can be made with these Fe-based superconductors using simpler processes than are needed with high-temperature cuprate superconductors. 8 Actually these new Fe-based superconductors share several characteristics with cuprates including: layered structures, coexistence of different orderings, occurrence of superconductivity upon doping, short coherence length and unconventional pairing. In cuprates all these features have been shown to be unfavorable for applications. On the other hand, the available results show that both impurities 9,10 and grain boundaries 11,12 are less detrimental to the superconducting properties of these Fe-based superconductors than to the cuprates. Use of Fe-based superconductors in largescale applications would be greatly enhanced if polycrystalline samples were not intrinsically electromagnetically granular, as is the case for the cuprates. However, investigations of the critical current density (J c ) of 1111 polycrystalline samples have all shown significant evidence for granularity and low intergranular J c values. 11,13,14,15,16,17 In our previous study, evidence for two distinct scales of current flow was found in polycrystalline Sm-and Nd -1111 samples using magneto-optica...

Section: Magnetization Measurementsmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 97%

Evidence for electromagnetic granularity in polycrystalline Sm1111 iron-pnictides with enhanced phase purity

Yamamoto

Jiang

Kametani

et al. 2011

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“…The discovery of superconductivity in the LaFeAsO 1-x F x compound [1] has been followed by rapid exploration of many aspects of the superconducting behaviour of the broad class of rare earth iron oxypnictides [2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17] whose transition temperature T c can reach above 40 K when La is replaced by Ce [5] and above 50 K when the rare earth is Pr, Nd, Sm and Gd [7][8][9][10][11]. Hunte et al reported that even the La Fe-oxypnictide with Tc ~ 26 K exhibits a very high upper critical field H c2 of ~65 T [6] while H c2 over 200 T was deduced for the Sm and Nd Fe-oxypnictides [17], strongly suggesting a large high field domain for the Fe-oxypnictides.…”

Section: Introductionmentioning

confidence: 99%

“…Foreseeing practical applications, there has been immediate interest in the critical current density too. But all polycrystalline samples of La, Sm and Nd Fe-oxypnictides [12][13][14][15][16] examined to date show signs of less than full grain-to-grain connectivity, raising the same concern of depression of superconducting order parameter at grain boundaries that has so greatly complicated applications of the cuprates [18]. Grain boundary order parameter suppression is fundamental detriment to applications since it means that a randomly aligned grain structure will not pass the full current that can be sustained by intragrain vortex pinning, thus reducing the global or whole-sample current density below that circulating in the grains.…”

Section: Introductionmentioning

confidence: 99%

Combined microstructural and magneto-optical study of current flow in polycrystalline forms of Nd and Sm Fe-oxypnictides

Kametani

Polyanskii

Yamamoto

et al. 2008

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In order to understand why the inter-and intra-granular current densities of polycrystalline superconducting oxypnictides differ by three orders of magnitude, we have conducted combined magneto-optical and microstructural examinations of representative randomly oriented polycrystalline Nd and Sm single-layer oxypnictides. Magneto optical images show that the highest J c values are observed within single grains oriented with their c axes perpendicular to the observation plane, implying that the intragranular current is anisotropic. The much lower intergranular J c is at least partially due to many extrinsic factors, because cracks and a ubiquitous wetting As-Fe phase are found at many grain boundaries. However, some grain boundaries are structurally clean under high resolution transmission electron microscopy examination. Because the whole-sample global J c (

“…On the other hand, many workers have focused on magnetic and transport properties of the series [10][11][12][13][14][15][16][17]. Detailed phase diagram and transport properties of SmFeAsO 1-x F x were studied, and it was found that superconductivity emerges at x=0.10 and optimal doping takes place at x=0.2 with the highest Tc=54 K [10].…”

Section: Introductionmentioning

confidence: 99%

Structural and critical current properties in polycrystalline SmFeAsO_1−xF_x

Wang¹,

Gao²,

Qi³

et al. 2008

A series of polycrystalline SmFeAsO 1-x F x bulks (x=0.15, 0.2, 0.3 and 0.4) were prepared by a conventional solid state reaction. Resistivity, susceptibility, magnetic hysteresis, critical current density and microstructure of these samples have been investigated. The resistivity result shows that critical transition temperature Tc increases steadily with increasing fluorine content, with the highest onset Tc=53 K at x=0.4. On the other hand, a study on the effect of lattice constants on critical transition temperature and resistivity at 60 K (ρ 60K ) presents a possible correlation; that is, Tc rises with the shrinkage of a-axis while ρ 60K increases with the enlargement of c-axis. A global critical current density of 1.1×10 4 A/cm 2 at 5 K in self field was achieved in the purest sample. An inter-grain Jc of about 3.6×10 3 A/cm 2 at 5 K in self field was estimated by comparing the difference in magnetization between powder and bulk samples, in contrast to the intra-grain Jc of 10 6 A/cm 2 . A weak field dependence was observed in the estimated inter-grain Jc, and the effect of composition gradients on the inter-grain Jc was also discussed.