Hostname: page-component-7bb8b95d7b-2h6rp Total loading time: 0 Render date: 2024-09-25T07:01:07.328Z Has data issue: false hasContentIssue false
  • English
  • Français

Influence of Hydrogen Incorporation and Oxygen Removal on Superconducting YBa2Cu3O7

Published online by Cambridge University Press:  15 February 2011

T. Hirata
T. Hirata*
Affiliation:
National Research Institute for Metals, 1–2–1, Sengen, Tsukuba, Ibaraki 305, hirata@monokusa.nrim.go.jp
Get access

Abstract

The influence of hydrogen incorporation and oxygen removal on superconducting YBa2Cu3O7-δ is discussed in comparison with their respective effects. Both hydrogen incorporation and oxygen removal induce the orthorhombic (O)-to-tetragonal (T) transition and antiferromagnetic ordering as well. However, there exist no consistent changes in the c-axis for the O-to-T transition and the superconducting transition temperature Tc upon hydrogen incorporation in YBa2Cu3O7-δ on the other hand, the c-axis certainly increases in the corresponding transition driven by oxygen nonstoichiometry and Tc decreases with increasing δ in YBa2Cu3O7-δ. Plots of Tc vs. the lattice parameter c reveal no significant suppression in Tc upon hydrogenation than oxygen removal. It is concluded that the Cu-O bond distances or the Cu-Cu plane spacings along the c-axis change somewhat differently in two cases; it is believed that the charge-carrier concentration is reduced less significantly upon hydrogenation than oxygen removal in YBa2Cu3O7-δ, giving rise to the aforementioned finding.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 453: Symposium R – Solid State Chemistry of Inorganic Materials , 1996 , 89
Copyright
Copyright © Materials Research Society 1997

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

1. Hirata, T., physica status solidi (a), 156, 227(1996).Google Scholar
2. Fujii, H., Kwanaka, H., Ye, W., Orimo, S. and Fukuba, H., Jpn. J. Appl. Phys. 27, L525(1988).Google Scholar
3. Harrington, I., Korn, C., Goren, S.D., Snaked, H. and Kimmel, G., Physica C 226, 255(1994).Google Scholar
4. Daou, J.N., Burger, J.P. and Vajda, P., J. Less-Common Met. 172–174, 425(1991).Google Scholar
5. Tarascon, J.M., Barboux, P., Bagley, B. G., Greene, L.H., Mckinnon, W.R. and Hull, G.W., in Chemistry of High-temperature Superconductors, edited by. Nelson, D.L., Whittingham, M.S. and George, T. F. (American Chem. Soc, Washington DC, 1987), p. 198.Google Scholar
6. Tarascon, J.M., Greene, L.H., Bagley, B., Mckinnon, W.R., Barboux, P. and Hull, G.W., in Novel Superconductivity, edited by Wolf, S.A. and Kresin, V.Z. (Plenum Press 1987), p.705.Google Scholar
7. Greene, L.H. and Bagley, B.G., in Solid State Physics. Advances in Research and Applications. Vol. 42, edited by Ehrenreich, H. and Turnbull, D. (Academic Press Inc. New York, 1989), p.509.Google Scholar
8. Cava, R.J., Batlogg, B., Chen, C.H., Rietman, E.A., Zahurak, S.M. and Werder, D., Phys. Rev. B 36, 5719(1987).Google Scholar
9. Jorgensen, J.D., Veal, B.W., Paulikas, A.P., Nowicki, L.J., Crabtree, G.W., Claus, H. and Kwok, W.K., Phys. Rev. B 41, 1863(1990).Google Scholar
10. Nicolas, M., Daou, J.N., Vedel, I., Vajda, P., Burger, J.P., Lesueur, J. and Dumoulin, L., Solid State Commun. 66, 1157(1988).Google Scholar
11. Dortmann, G., Erxmeyer, J., Blässer, S., Steiger, J., Paatsch, J., Weidinger, A., Karl, H. and Stritzker, B., Phys. Rev. B 49, 600(1994).Google Scholar
12. Goren, S.D., Korn, C., Shakel, H., Rössler, E., Vieth, H.M., Lüders, K., Physica C 140–144, 223(1994).Google Scholar
13. Balagurov, A.M., Mironova, G.M., Rudnickij, L.A. and Ju. Galkin, V., Physica C 172, 331(1990).Google Scholar
14. Fruchart, D., Soubeyroux, J. L., Tran Qui, D., Pique, C., Rillo, C., Lera, F., Orera, V., Flokstra, J. and Blank, D.H.A., J. Less-Common Met. 157, 233(1990).Google Scholar
15. Sinitsyn, V.V., Bashkin, L.O., Ponyatovskii, E.G., Prokopenko, V.M., Dilanyan, R.A., Sh. Shekhtman, V., Nevedomskaya, M.A., Kremenskaya, I.N., Sidorov, N.S., Nikolaev, R.K. and Zh.D., Sokolovskaya, Sov. Phys. Solids State. 31, 2056(1989).Google Scholar
16. Yang, C.Y., Yang, X.-Q., Heald, S.M., Reilly, J.J., Skotheim, T., Moodenbaugh, A.R. and Suenaga, M., Phys. Rev. B 36, 8798(1987).Google Scholar
17. Natkaniec, I., Belushkin, A.V., Brankowski, J., Goremychkin, E.A., Mayer, J., Sashin, I.L., Fedotov, V. K., Kolesnikov, A.I., Bashkin, I.O., Sinicyn, V.V., Ponyatovskii, E.G., Phyica C 162–164, 1369(1989).Google Scholar
18. Garrote, I., Moran, E., Alario-Franco, M.A., Rojo, J.M. and Sanz, J., J.Mater. Chem. 5. 1171(1995).Google Scholar
19. Kato, T., Usami, K., Kuniya, J. and Mastuda, S., Jpn. J. Appl. Phys. 27, Ll 104(1988).Google Scholar
20. Erxmeyer, J., Dortmann, G., Steiger, J., Boebel, O. and Weidigner, A., J. Less-Common Met. 172–174, 419(1991).Google Scholar
21. Feiner, I., Brosh, B., Goren, S.D., Korn, C. and Volterra, V., Phys. Rev. B 43, 10368(1991).Google Scholar
22. Richter, A., Irmer, G., Kessler, K., Panzner, M. and Herzog, K., J. Alloys and Compounds. 187, 59(1992).Google Scholar
23. Takabatake, T., Ye, W., Orimo, S., Tamegai, T. and Fujii, H., Physica C 162–164, 65(1989).Google Scholar
24. Hadjiev, V. G., Abrashev, M.V., Iliev, M.N. and Bozukov, L.N., Physica C 171, 257(1990).Google Scholar
25. Porath, D., Grayevsky, A., Kaplan, N., Shaltiel, D., Yaron, U. and Walker, E., J. Alloys and Compounds. 204, 79(1994).Google Scholar
26. Kamiyama, T., Tomiyoshi, S., Omori, H., Yamuchi, H., Kajitani, T., Matsunaga, T. and Yamamoto, H., Physica B 148, 491(1987).Google Scholar
27. Reilly, J.J., Suenaga, M., Johnson, J.R., Thomson, P. and Moodenbaugh, A.R., Phys. Rev. B 36, 5694(1987).Google Scholar
28. Johnson, J.R., Suenaga, M., Thomson, P. and Reilly, J.J., Zeitschrift für Physikalische Chemie (N. F). 163, 721(1989).Google Scholar
29. Kulpa, A., Chaklader, A.C.D., Osborne, N.R., Roemer, G. and Sullivan, B. and Williams, D.LI., Solid State Commun. 71, 265(1989).Google Scholar
30. Asada, Y., Nakada, E., Miyazaki, A. and Yokokawa, T., J. Jpn. Inst. Met. 55, 105(1991).Google Scholar
31. Nidermayer, C., Glückler, H., Simon, R., Golnik, A., Rauer, M., Recknagel, E., Wedinger, A., Budnick, J. I., Paulus, W. and SchöHhorn, , Phys. Rev. B 40, 11386(1989).Google Scholar
32. Glückler, H., Weidinger, A., Golnik, A., Nidermayer, C., Rauer, M., Simon, R., Recknagel, E., Budniek, J. I., Paulus, W. and Schöllhorn, R., Physica C 162–164, 149(1989).Google Scholar
33. Alloul, H., Mendels, M., Collin, G. and Monod, P., Phys. Rev. Lett. 61, 746(1988).Google Scholar
34. Balakrishnan, G., Dupree, R., Farnan, I., Mckpaul, D. and Smith, M.E., J. Phys. C: 21, L847(1988).Google Scholar
35. Goren, S.D., Korn, C., Volterra, V., Riesemeier, H., Rössler, E., Schaefer, M., Vieth, H.M. and Lüders, K., Phys. Rev. B 42, 7949(1990).Google Scholar
36. Goren, S.D. and Kom, C., Perrin, C., Hoffmann, W., Vieth, H.M. and Lüders, K., Phys. Rev. B 52, 3091(1995).Google Scholar
37. Goren, S.D., Korn, C., Riesemeier, H. and Lüders, K., Phys. Rev. B 47, 2821(1993).Google Scholar
38. Lütgemeier, H., Schmenn, S., Schone, H., Yu., Baikov, Feiner, I., Goren, S. and Korn, C., J. Alloys and Compounds. 219, 29(1995).Google Scholar
39. Goren, S.D., Korn, C., Volterra, V., Schaefer, M., Riesemeier, H., Rössler, E., Stenschke, H., Vieth, H. M. and Lüders, K., Solid State Commun. 70, 279(1989).Google Scholar
40. Hewat, A.W., Physica B 180 & 181, 369(1992).Google Scholar
41. Miceli, P.F., Tarascon, J.M., Greene, L.H., Barboux, P., Rotella, F.J. and Jorgensen, J.D., Phys. Rev. B 37, 5932(1988).Google Scholar
42. Zhang, H. and Sato, H., Phys. Rev. Lett. 70, 1697(1993).Google Scholar
43. Talion, J.L., Bernhard, C., Shakel, H., Hitterman, R.L. and Jorgensen, J.D., Phys. Rev. B 51, 12911(1995).Google Scholar
44. Tanaka, S. and Motoi, Y., Phys. Rev. B 52, 85(1995).Google Scholar
45. Kawabata, S. and Nakanishi, T., J.Phys. Soc. Jpn. 59, 3835(1990).Google Scholar
46. Garrote, I., Moran, E., Alario-Franco, M.A., Rojo, J.M. and Sanz, J., Physica C 235–240, 385(1994).Google Scholar
47. Kubokawa, T., Kumaki, Y., Fujii, K., Tatsumi, Y., Taimatsu, H. and Kaneco, H., Jpn. J. Appl. Phys. 33, L507(1994).Google Scholar