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From the current literature


Positronium in a cavity in a high-Tc superconductor


Lomonosov Moscow State University, Faculty of Physics, Leninskie Gory 1 build. 2, Moscow, 119991, Russian Federation

The behavior of positronium localized in a microvoid in a high-temperature superconductor (HTSC) environment is examined. The interaction of such a positronium with conduction electrons is treated as arising from the Ps ↔ e+ + e- process, which is mathematically described here in terms of the well-known Anderson model for a magnetic impurity in a normal metal. In this model, the interaction underlying this process is due to the positronium state hybridization with the states of conduction electrons and the state of the positronium remaining within the void. Similarly to the case of a magnetic impurity, the density of states of an interacting positronium exhibits a ’Kondo resonance’ if the Fermi liquid surrounding the void is in the normal state. Based on experimental data on the lifetime τ2 of void-trapped positrons, it is concluded that the hybridization interaction is much stronger than the intra-atomic relativistic electron — positron interaction in the Ps atom. The model used to describe the interacting Ps atom provides a relation between the experimental values of τ2(T) and the properties of the electronic structure of the metal. Experimental results for ceramic HTSC samples of (Bi, Pb)2Sr2Ca2Cu3O7 and (Bi, Pb)-2223 are interpreted, which show a sharp decrease in τ2(T) at T = Tc, where Tc is the superconducting transition temperature. Using the adopted model, some conclusions are drawn as to how the properties of the pseudogap correlate with the experimental τ2(T) dependence observed in (Bi,Pb)-2223 for T > Tc.

Fulltext pdf (224 KB)
Fulltext is also available at DOI: 10.3367/UFNe.0179.200907b.0727
PACS: 71.60.+z, 74.25.Jb, 74.72.−h, 78.70.Bj (all)
DOI: 10.3367/UFNe.0179.200907b.0727
URL: https://ufn.ru/en/articles/2009/7/b/
000272512700002
2-s2.0-70449553413
2009PhyU...52..687S
Citation: Sedov V L "Positronium in a cavity in a high-Tc superconductor" Phys. Usp. 52 687–694 (2009)
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Оригинал: Седов В Л «Позитроний в микрополости в высокотемпературном сверхпроводнике» УФН 179 727–736 (2009); DOI: 10.3367/UFNr.0179.200907b.0727

References (115) Similar articles (16) ↓

  1. V.A. Moskalenko, M.E. Palistrant, V.M. Vakalyuk “High-temperature superconductivity and the characteristics of the electronic energy spectrum34 (8) 717–728 (1991)
  2. K.V. Mitsen, O.M. Ivanenko “Superconducting phase diagrams of cuprates and pnictides as a key to understanding the HTSC mechanism60 402–411 (2017)
  3. A.I. Golovashkin “Superconductors with unusual properties and possibilities of increasing the critical temperature29 199–209 (1986)
  4. E.G. Maksimov, S.Yu. Savrasov “Photoemission spectroscopy of high-Tc superconductors33 (9) 763–774 (1990)
  5. N.V. Zavaritskii “The energy gap in the electron excitation spectrum of oxide superconductors33 (9) 775–791 (1990)
  6. P.B. Wigman “High-temperature superconductivity in metal-oxide ceramics30 729–732 (1987)
  7. N.E. Alekseevskii, D.I. Khomskii “Heavy-fermion superconductors28 1136–1143 (1985)
  8. T.B. Charikova, N.G. Shelushina et alEffects of tunneling in highly anisotropic layers of superconductors”, accepted
  9. L.A. Fal’kovskii “Electron scattering of light in superconductors33 (4) 296–298 (1990)
  10. I.I. Mazin “Electronic structure of high-temperature superconductors in the normal state32 469–472 (1989)
  11. V.M. Svistunov, M.A. Belogolovskii, A.I. D’yachenko “Vacuum tunneling microscopy and spectroscopy31 86–89 (1988)
  12. N.A. Tulina “Colossal electroresistance and electron instability in strongly correlated electron systems50 1171–1178 (2007)
  13. K.P. Belov “Ferrimagnets with a ’weak’ magnetic sublattice39 623–634 (1996)
  14. P.I. Nikitin, A.I. Savchuk “The Faraday effect in semimagnetic semiconductors33 (11) 974–989 (1990)
  15. Yu.P. Irkhin “Electron structure of the 4f shells and magnetism of rare-earth metals31 163–170 (1988)
  16. A.I. Buzdin, L.N. Bulaevskii “Spin-Peierls transition in quasi-one-dimensional crystals23 409–417 (1980)

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