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Effect of Combined Addition of Nano-SiC and Nano-Ho2O3 on the in-Field Critical Current Density of MgB2 Superconductor

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dc.contributor.author Neson Varghese
dc.contributor.author Vinod, K
dc.contributor.author Chattopadhyay, M K
dc.contributor.author Roy, S B
dc.contributor.author Syamaprasad, U
dc.date.accessioned 2016-12-26T05:54:15Z
dc.date.available 2016-12-26T05:54:15Z
dc.date.issued 2010-11-24
dc.identifier.citation Journal of Applied Physics 107:013907 en_US
dc.identifier.uri http://hdl.handle.net/123456789/2603
dc.description.abstract MgB2 superconducting samples added with nano-Ho2O3 n-Ho2O3 and/or nano-SiC n-SiC have been prepared by an in situ solid state reaction method to investigate and compare the combined and individual effects of n-SiC and n-Ho2O3 on a crystal structure, critical temperature TC , and critical current density JC of MgB2. All the doped samples exhibit significantly enhanced in-field JC and the codoped sample with 2.5 wt % n-Ho2O3 and 5 wt % n-SiC gives the best performance in in-field JC, and the enhancement is around 100 times and 2 times greater than the undoped and monodoped n-SiC samples, respectively, at 5 K and 8 T. For the n-SiC added sample, lattice distortions due to C substitution on the B site and the formation of reacted phase Mg2Si as flux pinners cause enhanced JC up to the maximum field studied 8 T . While in the n-Ho2O3 added sample, a reacted phase HoB4 having a strong magnetic moment forms, without any substitution at the Mg or B site, which acts as a flux pinner in order to enhance the in-field JC. Accordingly the best codoped sample exhibits these combined benefits of n-SiC and n-Ho2O3 in MgB2 superconductor. © 2010 American Institute of Physics en_US
dc.language.iso en en_US
dc.publisher AIP en_US
dc.subject crystal structure en_US
dc.subject performance en_US
dc.subject magnetic moment en_US
dc.title Effect of Combined Addition of Nano-SiC and Nano-Ho2O3 on the in-Field Critical Current Density of MgB2 Superconductor en_US
dc.type Article en_US


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