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Algarni R.,Slimani Y.,Hannachi E.,Almessiere M.A.,Alqahtani B.H.,Akhtar Sultan,Ben Azzouz F. 한국물리학회 2021 Current Applied Physics Vol.27 No.-
YBa2Cu3O7-δ (or YBCO) superconductors added with various concentrations of dysprosium oxide nanoparticles (NP-Dy2O3) were prepared using the solid-state process. The additive NP-Dy2O3 has a size of about 10 nm and presents a para/ferromagnetic transition at about 300 K. The characterization of samples was probed via XRD, TEM, SEM, DC magnetization, and AC susceptibility measurements. Some models were employed to compute superconducting parameters like intragranular critical current density under a magnetic field (Jcm(H)), the density of intragranular pinning force for Abrikosov vortex (εg(0)), intergranular critical current density (Jc,inter), intergranular electrical character, superconductor grain volume fraction (fs). The correlation between these parameters and microstructure was discussed. The inclusion of NP-Dy2O3 does not alter the structural properties and the spatial growth of YBa2Cu3O7-δ. NP-Dy2O3 addition led to significant enhancements of Jcm(H) and εg(0). The decrement in Jc,inter was attributed to the change of grain boundary characteristics that transformed from SNS to SINS junction due to NP-Dy2O3 addition.
Hannachi E.,Slimani Y.,Almessiere M.A.,Alotaibi S.A.,Omelchenko L.V.,Petrenko E.V.,Kurbanov U.,Ben Azzouz F.,Solovjov A.L.,Baykal A. 한국물리학회 2023 Current Applied Physics Vol.48 No.-
We report the effect of the addition of BaTiO3 and WO3 nanoparticles on the pseudogap and excess conductivity of YBCO polycrystal. The excess conductivity analysis showed that the experimental data of pure and sample added with low amount of WO3 and BaTiO3 were perfectly described by the 2D Maki-Thompson (MT) and 3D Aslamazov-Larkin (AL) models. A sharp decrease in excess conductivity was obtained for samples added with high amount of nanoparticles where the analysis indicated the presence of the AL contribution and Lawrence- Doniach (LD) models. The pseudogap (PG) results showed that the value of Tpair (the temperature at which local pairs are transformed from strongly bound bosons into the fluctuating Cooper pairs) increased from around 117 K for the pure sample to around 187 K for sample co-added with low amount of nanoparticles. The pseudogap Δ*(TG) reduced from 230.9 K (for pure sample) to 223.4 K (for added sample).
M. A. Almessiere,Y. Slimani,A.V. Trukhanov,A. Baykal,H. Gungunes,E.L. Trukhanova,S.V. Trukhanov,V.G. Kostishin 한국공업화학회 2020 Journal of Industrial and Engineering Chemistry Vol.90 No.-
The dysprosium ions (Dy3+)-substituted nanosized ferrites (NFs) of composition [Ni0.5Co0.5](DyxFe2-x)O4(x0.08) were prepared using the citrate gel process. To analyse the magnetic properties of the samples,the Mössbauer spectroscopy methods and vibrating sample magnetometry (VSM) were applied. Theroom temperature Mössbauer spectra werefitted to determine the hyperfine parameters of the proposedNFs. The preferential occupation of the octahedral B sites by the Dy3+ in the spinel ferrite sublattice wasconfirmed from the cations distribution. The hyperfine magneticfield of both sublattice decreasedwhereas the increase in the Dy3+ substitution was observed. The S-parameters of the prepared NFs in thehigh frequency range were measured by the co-axial method. In addition, the MW reflection losses wereevaluated by means of the frequency-dependent (in the range of 1–20 GHz) complex permittivity andpermeability spectra. All the NFs indicated that the absorption of the electromagnetic radiation wasranging between 2.9–5.5 GHz due to the natural ferromagnetic resonance. A correlation amongst the Dy3+ concentration, microstructure, magnetic and microwave (MW) characteristics of these NFs wasestablished. It’s been asserted that by controlling the Dy3+ contents carefully, the MW absorption andmagnetic attributes of the proposed spinel NFs can be tailored.