6 article(s) from Sidorenko, Anatolie S
- Full Research Paper
- Published 04 Jul 2016
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Figure 1: Sketch of the prepared Nb/Cu41Ni59/nc-Nb/Co/CoOx sample system SF1NF2-AF1. The dotted lines indicat...
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Figure 2: Cross-sectional TEM images of samples SF1NF2-AF1 #5, #20, and #25 from left to right. The dashed ye...
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Figure 3: Thickness analysis of the sample series SF1NF2-AF1. While the solid squares show the data obtained ...
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Figure 4: (a) Magnetic hysteresis loop of SF1NF2-AF1#1 recorded by a SQUID magnetometer. Here, m is the magne...
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Figure 5: Superconducting transition as a function of the temperature, T, and the applied magnetic field, H, ...
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Figure 6: (a) Superconducting transition temperature Tc of SF1NF2-AF1#22 as a function of the applied magneti...
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Figure 7: (a) Dimensionality parameter α and (b) the (fictive) upper critical field at zero temperature, Hc(0...
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Figure 8: Superconducting transition temperature, Tc0, in zero external magnetic field as a function of the F1...
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Figure 9: Maximum reduction of the transition temperature, ΔTc,max by the triplet SSV effect at crossed confi...
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- Letter
- Published 14 Dec 2011
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Figure 1: Magnetization hysteresis (M–H) curves for the pure MgB2 sample at various temperatures: 4.2 K, 10 K...
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Figure 2: Magnetization hysteresis (M–H) curves for the FeO-covered MgB2 sample at various temperatures: 4.2 ...
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Figure 3: Magnetic-field dependence of the critical current density Jc for the pure (red triangles) and for t...
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Figure 4: Magnetic-field dependence of the critical current density Jc for the pure (red triangles) and for t...
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Figure 5: Magnetic-field dependence of the critical current density Jc for the pure (red triangles) and for t...
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Figure 6: Magnetic-field dependence of the critical current density Jc for the pure (red triangles) and for t...
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