Analysis of Superconductor of Nd1Ba2Cu3O7 and Nd3Ba5Cu8O18 Phases Using FTIR Spectrophotometer

  • IGA Putra Adnyana Udayana University
  • Made Sumadiyasa Udayana University
  • Nyoman Wendri Udayana University

Abstract

I has been synthesized superconducting materials of the Nd1Ba2Cu3O7, Nd3Ba5Cu8O18 and Y3Ba5Cu8O18 phases. The study was conducted to determine whether the data from the phase Y1Ba2Cu3O7 can be used as a base to identify superconducting material of the Nd3Ba5Cu8O18 phase. Synthesis was done by solid state reaction method with initial mixing in HNO3 solution mixture with Y2O3, Nd2O3, BaCO3, and CuO, with the ratio adjusted to the stoichiometry calculation. Samples in the form of pellets with a diameter of 1.5 cm were sintered at 950 oC for 24 hours in an atmospheric environment. The FTIR measurements have been carried out with a standard KBr. The theoretical calculation spectra and vibration mode data from YBa2Cu3O7-d  can be used to identify Nd1Ba2Cu3O7, Nd3Ba5Cu8O18 dan Y3Ba5Cu8O18, with peak absorption in the range of wave numbers that are almost the same, namely 400-450 cm-1, which is the four oxygen atoms O(2,3) mode, 426-439 cm-1 is the in-phase mode of oxygen atom O(2,3), and the vibrational mode of peaks O(4) is observed at 488 cm-1.

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References

[1] Cahaya, P., Suharta, W.G. dan Widagda, I G A., Pengaruh Variasi Waktu Sintering Terhadap Strutur Kristal Superkonduktor Y0.5La0.5Ba2Cu3O7-. Buletin Fisika, Vol. 17, No. 2, 2016. Hal. 34-40.
[2] Thomsen, C. and Kaczmarczyk, G., Vibrational Raman Spectroscopy of High-temperature Superconductors, Handbook of Vibrational Spectroscopy. John M. Chalmers and Peter R. Griffiths, John Wiley & Sons Ltd, Chichester, 2002.
[3] Krol, D. M., Michael Stavola, Schneemeyer, L. F., Waszczak, J. V. and Sunshine, S. A., Raman spectroscopy of single crystals of high-Tc cuprates. Journal of the Optical Society of America B , 6, 1989, pp. 448-454.
[4] Shi, T. S., Zhao, Y.G., Cai, P.X., Gu, H.F. and Xie, L.M., IR Absorption Peaks and Oxygen Vacancies in YBa2Cu3Ox, Basic Solid State of Physics, First Published 1 August 1988
[5] Aliabadi, A., Akhavan Farshchi, Y. and Akhavan, M., 2009, A new Y-based HTSC with Tc above 100 K, Physica C, 469, 2012.
[6] Udomsamuthinrum, P., Kruaehong, T. Nilkamjon, T. and Ratreng, S., The New Superconductors of YBaCuO Materials, J. Spercond. Nov. Magn. 23, 1377, 2013.
[7] Srinivasan, K., George Thomas C., Padaikathan, P. and Ashoka, N. V., Synthesis and Characterization of Fluorinated Superconducting Y3Ba5Cu8Oy, IJERA, 3, 2013,927.
[8] Tellez, D. A. L., Cabrera Baez, M. and Roa-Rojas, J., Structure and Conductivity Fluctuation of The Y3Ba5Cu8O18, Modern Physics Letters B, 26, 1250067-1, 2012.
[9] Zhao, Y. E., Cai, C. Y., Luo, Y. Y. and He1, Z. H., FTIR Spectra of the M(EDTA)n− Complexes in the Process of Sol-Gel Technique, Plenum Publishing Corporation, 2004, pp. 383-387.
[10] Jordan Werbe-fuentes, Michael Moody, Oriana Korol and Tristan Kading, Carbon Dioxide Absorption in the Near Infrared, http://www.phy.davidson.edu/StuHome/derekk/Resonance/ pages/main.htm, (diunduh 31 Agustus 2015).
[11] Macfarlane, R. M., Hal Rosen and Seki, H., Temperature Dependence of the Raman Spectrum of the Height Tc Superconductor YBa2Cu3O7, Solid State Communications, 63, 1987.
[12] Jiang, C. Y., Yang, H. S., Xu, X. Y., Yu, F. Y., Sun, C. H., Ke, S. Q. and Leng, R. J., Infrared Spectra Study of Nd1.65-xTl0.5RxCe0.15CuO4+δ (R=Gd and Sm) Single Crystals, Physica C: Superconductivity, 471, 2011, pp. 19-22.
Published
2020-07-15
How to Cite
PUTRA ADNYANA, IGA; SUMADIYASA, Made; WENDRI, Nyoman. Analysis of Superconductor of Nd1Ba2Cu3O7 and Nd3Ba5Cu8O18 Phases Using FTIR Spectrophotometer. BULETIN FISIKA, [S.l.], v. 21, n. 2, p. 67-72, july 2020. ISSN 2580-9733. Available at: <https://ojs.unud.ac.id/index.php/buletinfisika/article/view/61466>. Date accessed: 21 nov. 2024.

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