Systematic study of a MgB2+C4H6O5superconductor prepared by the chemical solution route

Kim, Jung Ho; Dou, Shi Xue; Hossain, Md. Shahriar A.; Xu, Xiaojing; Wang, Jianli; Shi, Dongqi; Nakane, T.; Kumakura, Hiroaki

doi:10.1088/0953-2048/20/7/022

Cited by 59 publications

(57 citation statements)

References 18 publications

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“…21 The critical temperature T c was defined as the onset temperature at which diamagnetic properties were observed. This temperature was 35Ϯ 0.20 K for the both samples.…”

Section: Methodsmentioning

confidence: 99%

Strong competition between the δl and δTc flux pinning mechanisms in MgB2 doped with carbon containing compounds

Ghorbani

Wang

Hossain

et al. 2010

Journal of Applied Physics

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The transport and magnetic properties of 10 wt % malic acid and 5 wt % nanocarbon doped MgB2 have been studied by measuring the resistivity (ρ), critical current density (jc), connectivity factor (AF), irreversibility field (Hirr), and upper critical field (Hc2). The pinning mechanisms are studied in terms of the collective pinning model. It was found that both mean free path (δl) and critical temperature (δTc) pinning mechanisms coexist in both doped MgB2. For both the malic acid and nanocarbon doped samples, the temperature dependence of the crossover field, which separates the single vortex and the small bundle pinning regime, Bsb(T), shows that the δl pinning mechanism is dominant for temperatures up to t(T/Tc)=0.7 but the δTc pinning mechanism is dominant for t>0.7. This tendency of coexistence of the δl and the δTc pinning mechanism is in strong contrast with the pure MgB2, in which the δTc pinning mechanism is dominant over a wide temperature range below Tc. It was also observed that the connectivity factor, active cross-sectional area fraction (AF), are 0.11 and 0.14 for the nanocarbon and the malic acid doped MgB2, respectively, indicating that there are still rooms for further improving jc performance.

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“…21 The critical temperature T c was defined as the onset temperature at which diamagnetic properties were observed. This temperature was 35Ϯ 0.20 K for the both samples.…”

Section: Methodsmentioning

confidence: 99%

Strong competition between the δl and δTc flux pinning mechanisms in MgB2 doped with carbon containing compounds

Ghorbani

Wang

Hossain

et al. 2010

Journal of Applied Physics

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“…Thus, it enhances the critical parameters both ways and results in superior results than through other dopants. [13][14][15] Substantial increment is noticed in the H c2 ͑0͒ value for the nanocarbon doped samples as compared to pristine MgB 2 on applying suitable theoretical model. The quantitative description is given in Sec.…”

Section: Introductionmentioning

confidence: 96%

“…[13][14][15] Thus, along with MgB 2 , the nanocarbon doped samples are also taken into consideration. The critical parameters such as H c2 , H irr , and J c enhance significantly by nanocarbon substitution at boron site.…”

Section: Introductionmentioning

confidence: 99%

Enhanced critical parameters of nanocarbon doped MgB2 superconductor

Mudgel

Chandra

Ganesan

et al. 2009

Journal of Applied Physics

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The high field magnetization and magnetotransport measurements are carried out to determine the critical superconducting parameters of MgB 2−x C x system. The synthesized samples are pure phase and the lattice parameter evaluation is carried out using the Rietveld refinement. The R − T͑H͒ measurements are done up to a field of 140 kOe. The upper critical field values, H c2 , are obtained from these data based on the criterion of 90% of normal resistivity, i.e., H c2 = H at which =90% N , where N is the normal resistivity, i.e., resistivity of about 40K in our case. The Werthamer-Helfand-Hohenberg prediction of H c2 ͑0͒ underestimates the critical field value even below the field up to which measurement is carried out. After this model, the Ginzburg-Landau theory is applied to the R − T͑H͒ data which not only calculate the H c2 ͑0͒ value but also determine the dependence of H c2 on temperature in the low temperature high field region. The estimated H c2 ͑0͒ = 157.2 kOe for pure MgB 2 is profoundly enhanced to 297.5 kOe for the x = 0.15 sample in MgB 2−x C x series. Magnetization measurements are done up to 120 kOe at different temperatures and the other parameters such as irreversibility field H irr and critical current density J c ͑H͒ are also calculated. The nano carbon doping results in substantial enhancement of critical parameters such as H c2 , H irr , and J c ͑H͒ in comparison to the pure MgB 2 sample.

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“…In addition, although we conducted evaporation processing to eliminate the oxygen ͑O͒ content, the fraction of MgO due to included O from the carbohydrate increased gradually with increasing doping level. 12 If we can reduce the MgO fraction within the matrix and find a highly active C source that will be effective at lower sintering temperatures 600°C, the same as for MgB 2 formation, we speculate that the resulting high disorder due to C substitution, as well as strong flux pinning due to the small crystalline size, can have simultaneous positive effects on the infield J c . A higher sintering temperature is usually necessary for most of the other C sources, leading to crystalline growth and worse pinning.…”

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confidence: 92%

Influence of disorder on the in-field Jc of MgB2 wires using highly active pyrene

Kim

Hossain

et al. 2008

Applied Physics Letters

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In this work, we report on significantly enhanced critical current density (Jc) in MgB2 superconductor that was easily obtained by doping with a hydrocarbon, highly active pyrene (C16H10), and using a sintering temperature as low as ∼600°C. The processing advantages of the C16H10 additive include production of a highly active carbon (C) source, an increased level of disorder, and the introduction of small grain size, resulting in enhancement of Jc.

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Systematic study of a MgB₂+C₄H₆O₅superconductor prepared by the chemical solution route

Cited by 59 publications

References 18 publications

Strong competition between the δl and δTc flux pinning mechanisms in MgB2 doped with carbon containing compounds

Strong competition between the δl and δTc flux pinning mechanisms in MgB2 doped with carbon containing compounds

Enhanced critical parameters of nanocarbon doped MgB2 superconductor

Influence of disorder on the in-field Jc of MgB2 wires using highly active pyrene

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