A. İ. Demirel Et Al. , "Granularity aspect of the high temperature superconductivity (HTSC) material made by metal organic chemical vapour deposition method, Indian Journal of Pure Applied Physics. Vol 38.(2000) pp:815-820," INDIAN JOURNAL OF PURE PHYSICS , vol.38, pp.815-820, 2000
Demirel, A. İ. Et Al. 2000. Granularity aspect of the high temperature superconductivity (HTSC) material made by metal organic chemical vapour deposition method, Indian Journal of Pure Applied Physics. Vol 38.(2000) pp:815-820. INDIAN JOURNAL OF PURE PHYSICS , vol.38 , 815-820.
Demirel, A. İ., Yılmaz, R., & Arasoğlu, A., (2000). Granularity aspect of the high temperature superconductivity (HTSC) material made by metal organic chemical vapour deposition method, Indian Journal of Pure Applied Physics. Vol 38.(2000) pp:815-820. INDIAN JOURNAL OF PURE PHYSICS , vol.38, 815-820.
Demirel, Ali, Rafet Yılmaz, And Ali Arasoğlu. "Granularity aspect of the high temperature superconductivity (HTSC) material made by metal organic chemical vapour deposition method, Indian Journal of Pure Applied Physics. Vol 38.(2000) pp:815-820," INDIAN JOURNAL OF PURE PHYSICS , vol.38, 815-820, 2000
Demirel, Ali İ. Et Al. "Granularity aspect of the high temperature superconductivity (HTSC) material made by metal organic chemical vapour deposition method, Indian Journal of Pure Applied Physics. Vol 38.(2000) pp:815-820." INDIAN JOURNAL OF PURE PHYSICS , vol.38, pp.815-820, 2000
Demirel, A. İ. Yılmaz, R. And Arasoğlu, A. (2000) . "Granularity aspect of the high temperature superconductivity (HTSC) material made by metal organic chemical vapour deposition method, Indian Journal of Pure Applied Physics. Vol 38.(2000) pp:815-820." INDIAN JOURNAL OF PURE PHYSICS , vol.38, pp.815-820.
@article{article, author={Ali İhsan Demirel Et Al. }, title={Granularity aspect of the high temperature superconductivity (HTSC) material made by metal organic chemical vapour deposition method, Indian Journal of Pure Applied Physics. Vol 38.(2000) pp:815-820}, journal={INDIAN JOURNAL OF PURE PHYSICS}, year=2000, pages={815-820} }