Sains Malaysiana 37(3):  223-225 (2008)

 

Enhanced Critical Current Density in MgB2 with

Dy2O3 Particle Additions

(Peningkatan Ketumpatan Arus Genting dalam MgB2

dengan Penambahan Zarah Dy2O3)

 

 

Soo Kien Chen, Abdul Halim Shaari, Kean Pah Lim & Mohd Faisal Mohd Aris

Physics Department, Faculty of Science, Universiti Putra Malaysia,

43400 Serdang, Selangor, Darul Ehsan, Malaysia

 

Received: 12 Jun 2007 /Accepted: 19 November 2007

 

 

ABSTRACT

 

This paper reports on the effect  of oxide particle Dy2O3 additions on the superconducting properties of MgB2. The polycrystalline samples were prepared by well mixing magnesium and boron elemental powders, followed by heat treatment for in situ reaction in inert gas environment. All the samples showed MgB2 as the main phase with MgO and DyB4 as impurities. Magnetization measurements showed that the superconducting transition temperature, Tc remained largely unchanged (37.5 – 38K) even for Dy2O3 additions up to 15.0 wt.%. However, the transition curve was broadened in samples with larger amount of additions. The best sample with only 0.5 wt.% Dy2O3 additions had a Jc of around a factor of 4 higher compared to the pure sample at 6K(1T). Tem imaging showed the distribution of nano precipitates of DyB4 and MgO within the grain which may improve the pinning leading to enhancement in critical current density, Jc.

 

Keywords: MgB2; critical current density; nano precipitates

 

 

ABSTRAK

 

Kertas ini melaporkan  kesan penambahan serbuk oksida Dy2O3  terhadap ciri-ciri kesuperkonduksian MgB2. Sampel polikristal telah disediakan dengan mencampur serbuk magnesium and boron diikuti dengan rawatan pemanasan bagi menghasilkan tindakbalas in situ dalam persekitaran gas lengai. Semua sampel menunjukkan MgB2 sebagai fasa dominan dengan kehadiran MgO dan DyB4 sebagai fasa-fasa ketaktulenan. Pengukuran kemagnetan menunjukkan suhu genting, Tc tidak mengalami perubahan besar (37.5 – 38K) walaupun dengan penambahan Dy2O3 sehingga 15.0 wt.%. Walau bagaimanapun, lengkung peralihan suhu genting bertambah luas untuk sampel dengan panambahan serbuk oksida yang tinggi. Sampel yang terbaik dengan hanya penambahan 0.5 wt.% Dy2O3 mempunyai Jc pada 6K(1T) sebanyak empat kali ganda lebih tinggi berbanding dengan sampel tulen. Imej tem menunjukkan taburan mendakan DyB4 dan MgO yang bersaiz nano dalam butiran yang memperbaiki kesan pengepinan dan seterusnya meningkatkan ketumpatan arus genting, Jc.

 

Kata kunci: MgB2; ketumpatan arus genting; mendakan nano

 

 

REFERENCES/RUJUKAN

 

 

Buzea, C. & Yamashita, T. 2001. Review of the superconducting properties of MgB2. Superconductor Science and Technology 14: R115-46.

Chen, D. X. & Goldfarb, R. B. 1989. Kim Model for magnetization of type-II superconductors. Journal of Applied Physics 66: 2489-2500.

Chen, S.K., Wei, M. & MacManus-Driscoll, J.L. 2006. Strong pinning enhancement in MgB2 using very small Dy2O3 additions. Applied Physics Letters 88: 192512-1-3.

Dou, S.X., Soltanian, S., Horvat, H., Wang, X. L., Zhou, S. H., Ionescu, M., Liu, H.K., Munroe, P. & Tomsic, M. 2002. Enhancement of the critical current density and flux pinning of MgB2 superconductor by nanoparticle SiC doping. Applied Physics Letters 81: 3419-3421.

Eom, C.B., Lee, M.K., Choi, J.H., Belenky, L.J., Song, X., Cooley, L.D., Naus, M.T., Patnaik, S., Jiang, J., Rikel, M., Polyanskii, A., Gurevich, A., Cai, X.Y., Bu, S.D., Babcock, S.E., Hellstrom, E.E., Larbalestier, D.C., Rogado, N., Regan, K.A., Hayward, M.A., He, T., Slusky, J.S., Inumaru, K., Haas, M.K., & Cava, R.J. 2001. High critical current density and enhanced irreversibility field in superconducting MgB2 thin films. Nature 411: 558-60.

Kovác, P., Husek, I., Melisek, T., Grivel, J.C., Pachla, W., Strbík, V., Diduszko, R., Homeyer, J. & Andersen, N.H. 2004. The Role of MgO content in ex situ MgB2 wires. Superconductor Science and Technology 17: L41-L46.

Nagamatsu, J., Nakagawa, N., Muranaka, T., Zenitani, Y. & Akimitsu, J. 2001. Superconductivity at 39 K in Magnesium Diboride. Nature 410: 63-64.

Serquis, A., Liao, X. Z., Zhu, Y.T., Coulter, J.Y., Huang, J.Y., Willis, J.O., Peterson, D.E., Mueller, F.M., Moreno, N.O., Thompson, J.D., Nesterenko, V.F. & Indrakanti, S.S. 2002. Influence of microstructures and crystalline defects on the superconductivity of MgB2. Journal of Applied Physics 92: 351-56.

Wang, J., Bugoslavsky, Y., Berenov, A., Cowey, L. Caplin, A.D., Cohen, L.F., MacManus-Driscoll, J.L., Cooley, L.D., Song, X. & Larbalestier, D.C. 2002. High critical current density and improved irreversibility field in bulk MgB2 made by a scaleable, nanoparticle addition route. Applied Physics Letters 81: 2026-28.

Wang, X. L., Soltanian, S., James, M., Qin, M.J., Horvat, J., Yao, Q.W., Liu, H.K. & Dou, S.X. 2004. Significant enhancement of critical current density and flux pinning in MgB2 with nano-SiC, Si, and C doping. Physica C.  408-410: 63-67.

 

 

 
previous