Crystal-chemical structure and electrical conductivity of HTSC – cuprates under conditions of variation of defective composition and exposure to high-energy irradiation (literature review)
Abstract
The review considers the features of the crystal chemical structure of HTSC cuprates and modern ideas about the nature of their electrical conductivity. The analysis of factors affecting the electrical properties of HTSC cuprates is carried out. The reasons for the formation of specific chemical bonds between various ions, leading to the formation of clusters of negative U centers in this compound, as well as experimental facts indicating a close relationship between the crystal chemical structure of metal oxide compounds and their anomalous electrical conductivity are discussed. The anisotropy of their physical properties, in particular, the anisotropy of their electrical conductivity, is associated with the peculiarities of the crystallochemical structure of single-crystal HTSC cuprates. The study of the influence of defects of various nature on the electrical conductivity in various crystallographic directions, under conditions of temperature variation is an important source of experimental data for constructing theoretical models of layered HTSCs. It is shown that, along with the degree of deviation from oxygen stoichiometry, isovalent and non-isovalent substitution, an important method for modifying the electrical properties of cuprates is their irradiation with high-energy electrons. Taking into account modern ideas about the interaction of high-energy radiation with solids, the possible mechanisms of the influence of high-energy radiation on their electrical characteristics are considered. Based on the experimental data presented in the literature, the degree of influence of various processing methods of HTSC cuprates on their electrical conductivity is estimated.
Based on the analysis, the conditions for the selection of elements for the synthesis of compounds characterized by a higher
temperature of transition to the superconducting state are formulated and issues that have not received their experimental and
theoretical solutions are highlighted.
Downloads
References
J. G. Bednorz, K. A. Mueller, Z. Phys.,B64, p. 189, 1986.
M. K.Wu, J. R. Ashburn and all, Phys. Rev. Lett., v. 57,p. 908, 1987.
J. Bardeen, L. N. Cooper, J. R. Schrieffer, Phys. Rev.,v. 108, p. 1175, 1957.
B. Batlog, R. G. Cava and all, Phys. Rev. Lett., v. 58 p. 2333, 1987.
V. L. Ginzburg, E. G. Maksimov, Phys C, v. 235 – 240, p.193, 1994.
M. L. Cohen, S. A. Wolf, V. Z. Kresin, Novel Superconductivity, Plenum Press, London, p. 1095, 1987.
O. V. Abramov, O. M. Gradov, A. Yu. Kyrie, Physica Scripta, v. 46, p. 76, 1992.
O. V. Abramov, O. M. Gradov, A. Yu. Kyrie, Physica Scripta, v. 48, p. 620, 1993/
K. B. Micen, O. M. Ivanenko, JETF t. 118, s. 666, 2000.
K. B. Micen, O. M. Ivanenko, UFN, t. 1744, № 5, s. 545, 2004.
R. Evans, Vvedenie v kristallohimiju, 1948, s. 367.
K. Yvon, M. Francois, Z. Phys., v. 76, p. 413, 1989.
M. Weller, H. Jaeger, G. Kaiser, K. Schulze, Phys. C, v. 162, p. 953, 1989.
H. Jaeger, S. Hofman, G. Kaiser, G. Petzow, Phys. C, v.153, p. 133, 1988.
Yu. I. Boyko, V. V. Bogdanov, R. V. Vovk, G. Ya. Khadzhai, S. V. Savich, Low Temperature Physic, v. 44, № 1, p. 63, 2018.
G. Fuchs, A. Gladun and all, Journ. of the Less – Common Metals, v. 151, p.103, 1989.
S. Sadewasser, J.S. Schilling, A.P. Paulicas, B.M. Veal // Phys. Rev. B. -2000. -V.61, №1. -Р.741-749.
M. A. Obolenskii, A. V. Bondarenko, R. V. Vovk, and A. A. Prodan, Low Temp. Phys. 23, 882 (1997).
H.A.Borges and M.A.Continentino, Solid State Commun. 80, 197 (1991).
A. Chroneos, I.L. Goulatis, R.V. Vovk, Acta Chim. Sloven. 54, 179 (2007)
L.Mendonca Ferreira et al., Phys. Rev. B 69, 212505 (2004).
R. V. Vovk, M. A. Obolenskii, A. A. Zavgorodniy, I. L. Goulatis, and A. I. Chroneos, J. Mater. Sci.: Mater. Electron. 20, 858 (2009).
M. V. Sadovskii, I. A. Nekrasov, E. Z. Kuchinskii, Th. Pruschke, and V. I. Anisimov, Phys. Rev. B 72, 155105 (2005).
Ruslan V. Vovk, Georgij Ya. Khadzhai, Oleksandr V. Dobrovolskiy / Appl. Phys. A.
Akhavan, Physica B 321(1{4), 265 (2002).
R. V. Vovk, G.Ya. Khadzhai, I. L. Goulatis, A. Chroneos / Physica B: V. 436, (2014), P.P. 88–90.
A. L. Solovjov, M. A. Tkachenko, R. V. Vovk, and A. Chroneos // Physica C 501 (2014) p. 24-31.
R. V. Vovk, Z. F. Nazyrov, I. L. Goulatis, A. Chroneos // Journal of Materials Science: Materials in Electronics (2013) Volume 24, Issue 4, pp 1146-1149.
E. Babaev, H. Kleinert, Phys. Rev. B 59, 12083 (1999)
R. V. Vovk, A. A. Zavgorodniy, M. A. Obolenskii, I. L. Goulatis, A. Chroneos and V. M. Pinto Simoes // Modern Physics Letters B (MPLB) V.24, Issue: 22 (2010) P. 2295-2301
P.W.Anderson, Phys. Rev. Lett. 67, 2092 (1991).
R.V. Vovk, N.R. Vovk, O.V. Shekhovtsov, I.L. Goulatis and A. Chroneos. Supercond. Sci. Technol. 26 (2013) 085017.
R. V. Vovk, Z. F. Nazyrov, I. L. Goulatis, A. Chroneos / Physica C 485 (2013) p. 89-91.
K. Widdera, D. Bernera, H.P. Geserich, a, W. Widderb, H.F. Braunb // Physica C Volume 251, Issues 3–4 (1995), Pages 274–278.
Vovk R.V., Vovk N.R., Samoilov A.V., Goulatis I.L., Chroneos A. / Solid State Communications 170 6-9 (2013).
R. V. Vovk, G.Ya. Khadzhai, Z. F. Nazyrov, I. L. Goulatis, A. Chroneos, Physica B 407, 4470 (2012).
D.M. Ginsberg (ed.), Physical properties high temperature superconductors I. (Word Scientic, Singapore, 1989)
Vovk R.V., Nazyrov Z.F., Obolenskii M.A., Goulatis I.L., Chroneos A., Pinto Simoes V.M. / Philosophical Magazine, 91 (17), 2291 (2011).
Vovk R.V., Obolenskii M.A., Nazyrov Z.F., Goulatis I.L., Chroneos A. and Pinto Simoes V.M. J. Mater. Sci. - Mater. Electron. 2012, 23 1255–1259. ISSN 0957-4522
J. Ashkenazi, J. Supercond. Nov. Magn. 24, 1281 (2011)
R.V. Vovk, N.R. Vovk, G.Ya. Khadzhai, I.L. Goulatis, A. Chroneos / Solid State Communications, Volume 190, July 2014, Pages 18–22 (2014)
Collin G., Albouy P.A., Monod P., and Ribault M. / J. Phys. France 51 (1990) 1163-1177
Fisher, B.; Genossar, J.; Patlagan, L.; and Ashkenazi, J., "Resistivity and Thermoelectric-Power Measurements of PrxY1–xBa2Cu3O7– up to 1200 K and an Electronic-Structure Analysis" (1991). Physics Articles and Papers. Paper 39.
Vovk R.V., Obolenskii M.A., Zavgorodniy A.A., Nazyrov Z.F., Goulatis I.L., Kruglyak V.V., Chroneos A. / Modern Physics Letters B (MPLB) V. 25 (27), p. 2131-2136 (2011)
Duran C., Gammel P.L., Wolfe R. / Nature 357 (1992) 474.
Bondarenko A.V., Shklovskij V.A., Vovk R.V., Obolenskii M.A., Prodan A.A. / Low Temperature Physics (1997). 23 (12), pp. 962-967.
Blatter G., Feigel’man M.V., Geshkenbein V.B., Larkin A.I., Vinokur V.M. / Rev. Mod. Phys. 66 (1994) 1125
L. F. Rybalchenko, I.K. Janson, R. L.Bobrov I dr. / FNT, 16, № 1 (1990) 58
Abrikosov A.A., Gorkov L. P. JETF, 39 (1960), 1781
Kebede, C.S. Jee, J. Schwegler, J.E. Crow, T. Mihalisin, G.H. Myer, R.E. Salomon, and P. Schlottmann, M.V. Kuric, S.H. Bloom, and R.P. Guertin. / Phys. Rev. B 40, № 7, 4453–4462 (1989)
Sadovskij M. V., Posajennikova A. I. Pisma v JETF, 65, 258 (1997)
Takita K., Katoh H., Akinaga H., Nishino M., Ishigaki Т., Asano H. Jap. J. Appl. Phys. 27, 1, L57 (1988)
Colquitt L. J. Appl. Phys. 36, 2454 (1965).
Aslamazov L.G. and Larkin A.I. Phys. Lett. 26А, 238 (1968).
Larkin A., Varlamov A. Theory of fluctuations in superconductors. Oxford University Press, USA (2009). 496 p.
Aisaka T. and Shimizu M.J. Phys. Soc. Jpn. 28, 646 (1970).
Juravskij E. A. Nemchenko V.F. Kineticheskije svojstva i elektronnaja struktura faz vnedrenija, Naukova dumka, Kiev (1989).
Leridon B., Défossez A., Dumont J., Lesueur J., Contour J.P. Phys. Rev. Lett. 87, 197007-1 (2001).
Alekseevskij N. E., Gusev A. V., Devjatyh G. G., Kabanov A. V. i dr. Pisma v JETF, 47, 139 (1988).
Vonsovskiy S. V., Izumov Y. A., Kurmajev E. Z. Sverhprovodimost perehodnyh metallov, ih splavov i sojedinenij. Nauka, Moskva (1977).
B. Oh, K. Char, A.D. Kent, M. Naito et. al. Phys. Rev. B 37, 7861 (1988).
T.A. Friedmann, J.P. Rice, Jon Giapintzakis, and D.M.Ginsberg. Phys. Rev. B 39, 4258 (1989).
M. Sarikaya, R. Kikuchi, Physica C 152 (2), 161 (1988).
R.V. Vovk, G.Ya. Khadzhai, O.V. Dobrovolskiy, Appl. Phys. A, 117, 997 (2014).
R.V. Vovk, G.Ya. Khadzhai, O.V. Dobrovolskiy, Physica B 451, 84 (2014).
R.V. Vovk, N.R. Vovk, G.Ya. Khadzhai, Oleksandr V. Dobrovolskiy, Z.F. Nazyrov / Effect of defects on the basal-plane resistivity of YBa2Cu3O7– and Y1-yPryBa2Cu3O7– single crystals // Journal of Materials Science: Materials in Electronics (2015) 26: PP. 1435 - 1440 DOI 10.1007/s10854-014-2558-y
M.A.Obolenskii, R.V.Vovk, A.V.Bondarenko, and N.N.Chebotaev /Localization effects and pseudogap state in YBa2Cu3O7- single crystals with different oxygen content.// Low Temp. Phys., v.32, №6, p.746-752 (2006).
R. Smith, Semiconductors. Mir, Moscow, (1982)
V.A. Larkin A. Varlamov. Theory of fluctuations in superconductors, Oxford University Press, USA (2009).
V.N. Zverev, D.V. Shovkun, I.G. Naumenko, Pisma Zh. Exp. Theor. Phys. 68, 309 (1998).
M. Z. Meilihov, JETP Lett. 88, 819 (1999).
Stritzkez B., Zander W., Dworschak F., Poppe U., Fisher K. // Mat. Res. Soc. Symp. Proc. 1988. V. 99. 491.
Kirk M. A., Baker M. C., Liu J. Z., Lam D. J., Weber H. W. High-Tc Superconductors / Ed. H. W. Weber. Plenum Publishing Corporotion, 1988. P. 59.
Summers G. P., Chrisey D. B., Maisch W. G., Stauss G. H., Burke E. A., Nastasi M., Tesmer J. R. // IEEE Trans. Nucl. Sci. 1989. V. 36. N 6, P. 1840.
Marwick A. D., Clark G. J., Yee D. S., Laibowitz R. B., Coleman G., Cuomo J. J. // Phys. Rev. B. 1989. V. 39. N 13. P. 9061.
Renk K. F., Betz J., Schutzman J., Pruckl A., Brunner B., Lengferner H. // Appl. Phys. Lett. V. 57. N 20. P. 2148.
Meyer O., Geerk J., Kroener T., Li Q., Linker G., Strehlau B., Xi X. X. // Mat. Res. Soc. Symp. Proc. 1990. V. 157. P. 493.
Watanabe H., Kabius B., Urban K., Roas B., Klaumunzer S., Saemann-Ischenko G. // Physica C. 1991. V. 179. N 1. P. 75.
Chu W.-K., Liu J. R., Zhang Z. H. // Nucl. Instr. Meth. Phys. Res. B. V. 59/60. P. 1447.
Basu S. N., Mitchell T. N., Nastasi M. // J. Appl. Phys. 1991. V. 69. N 5. P. 3167.
Sauerzopf F. M., Wiesinger H. P., Weber H. W. // Supercond. Sci. Technol. 1992. V. 5. N 2. P. 105.
Frishherz M. C., Kirk M. A., Zhang G. P., Weber H. W. // Phil. Mag. A. 1993. V. 67. N 6. P. 1347.
Sauerzopf F. M., Wiesinger H. P., Kritcha W., Weber H. W., Frischherz M. C., Gerstenberg H. // Cryogenics 1993. V. 33. N 1. P. 8.
Baetzold R. C. // Phys. Rev. B. 1990. V. 42. N 1. P. 56.
Fiory A. T., Gurvitch M., Cava R. J., Espinosa C. P. // Phys. Rev. B. 1987. V. 36. N 13. P. 7262.
Cava R. J., Battlog B., Chen C. H., Rietman E. A., Zahurak S. M., Werder D. // Phys. Rev. B. 1987. V. 36. N 10. P. 5719.
Jorgensen J. D., Veal B. W., Paulikas A. P., Nowicki L. J., Crabtree G. W., Claus H., Kwok W. K. // Phys. Rev. B. 1990. V. 41. N 4. P. 1863.
Veal B. W., Paulikas A. P. // Physica C. 1991. V. 184. N 4. P. 321.
Poulsen H. V., Andersen N. H., Andersen J. V., Bohr H., Mouritsen O. G. // Nature. 1991. V. 349. N 6310. P. 594.
Klinger M. I. // Phys. Lett. A. 1990. V. 151. N 3/4. P. 181.
Hauck J. Phase relations in pseudobinary Ba2MCu3O6.5 + x(M=Y,Gd) / J. Hauck, K. Bickmann, F. Zucht // J. Mater. Research. – 1987. – V. 2, № 6. –Р. 762-764.
Bondarenko A. V. Sintez monokristallov VTSP na osnove ittrija. / Bondarenko A. V., Verkin B. I., Zubareva M. O., Obolenskij M. A. // Preprint FTINT AN USSR. – 1988. – № 41. – S. 12.
Reyers R. The Structure of YBа2Cu3O7– and its Derivatives / R. Reyers, T.M. Show // Sol. St. Physics. – 1989. – V. 42. – Р. 150-151.
M. A. Obolenskij, A. V. Bondarenko, M. O. Zubareva, FNT, т.15, №5, s.1152-1159 (1989).
Mitkevich V. V. Struktura i sverhprovodyassije svojstva monodomennogo kristalla YBaCuO / V. V. Mitkevich, S. A. Vasilchenko, A. V. Bondarenko, M. A. Obolenskij // FNT. – 1990. – Т. 16, № 1. – S. 117-119.
Schleger P. Thermodynamics of oxygen in YBa2Cu3Ox between 450oC and 650oC / P. Schleger, W.N. Hardy, B.X. Yang // Physica C. – 1991. –V. 176. – Р. 261-273.
Hong D.J.L. Effect of the temperature annealing on the oxygen content in YBа2Cu3O7–δ superconductor / D.J.L. Hong, D.M. Smith // J. Am. Ceram. Soc. – 1991. – V. 74, № 5. – P. 1751-1759.
Akhavan M. Angular dependence of switching field of magnetic recording particles / M. Akhavan, A. Sebt // Physica B. – 2002. – V. 321, № 1-4. –P. 120-123.
R. V. Vovk, A. l. Solovjov / Elektrotransport i pseudossel v VTSP – sojedinenijah sistemy 1-2-3 v uslovijah vsestoronnego sjatija // (Obzor) FNT (2018) т.44, №2, s.111-153.
S.I. Bondarenko et al. / Low Temperature Physics 43, 1125 (2017).
3.gif){kind=logo}
