Incommensurate magnetic structure in an antiferromagnet with a strong exchange interaction between delocalized and localized electrons

Cover Page

Cite item

Full Text

Abstract

The formation of an incommensurate three-dimensional magnetic order in an antiferromagnet is studied as a result of a strong correlation between holes and localized spins. The spectrum of spin polarons, the spin density wave, and the wave vector of the structure are calculated in the Kondo lattice model. The magnetic system is considered in the adiabatic approximation, the sublattice magnetization and spin-spin correlation functions are presented in the mean field approximation. The Fermi energy and s–d interaction energy are calculated. The heat capacity and heat capacity anomalies caused by spin polarons have been determined. Anomalies in the temperature dependence of conductivity and in optical conductivity in the low-energy region are founded.

About the authors

Sergey S. Aplesnin

Reshetnev Siberian State University of Science and Technology

Email: aplesnin@sibsau.ru

Dr. Sc., Professor of the Department of physics

Russian Federation, 31, Krasnoyarskii rabochii prospekt, Krasnoyarsk, 660037

Fyodor V. Zelenov

Reshetnev Siberian State University of Science and Technology

Email: fyodor.zelenov@yandex.ru

graduate student of the Department of physics

Russian Federation, 31, Krasnoyarskii rabochii prospekt, Krasnoyarsk, 660037

Olga N. Bandurina

Reshetnev Siberian State University of Science and Technology

Email: bandurinaon@mail.ru

Cand. Sc., Associate Professor, Department of Physics

Russian Federation, 31, Krasnoyarskii rabochii prospekt, Krasnoyarsk, 660037

Pavel P. Mashkov

Reshetnev Siberian State University of Science and Technology

Author for correspondence.
Email: mpp113@yandex.ru

Cand. Sc., Associate Professor, Department of Physics

Russian Federation, 31, Krasnoyarskii rabochii prospekt, Krasnoyarsk, 660037

References

  1. Maruyama S., Tanaka H., Narumi Y. Susceptibility, Magnetization Process and ESR Studies on the Helical Spin System RbCuCl3. J. Phys. Soc. Jpn. 2001, Vol. 70, P. 859–865.
  2. Horvatic M. et al. NMR Imaging of the Soliton Lattice Profile in the Spin-Peierls Compound CuGeO3. Phys. Rev. Lett. 1999, No. 83, P. 420.
  3. Aplesnin S. S. Quantum spin liquid in the 2D anisotropic Heisenberg model with frustrated next nearest neighbor exchange. Low Temperature Physics. 1998, Vol. 24 (8), P. 572–577.
  4. Aplesnin S. S., Ryabinkina L. I., Romanova O. B., Har'kov A. M., Gorev M. V., Balaev A. D., Eremin E. V., Bovina A. F. The magnetoelastic effect in CoxMn1-xS solid solutions. Solid State Communications. 2010, Vol. 150 (13–14), P. 564–567.
  5. Magnetoresistive effect in the cobalt-doped bismuth ferrite films / Romanova O. B., Aplesnin S. S., Sitnikov M. N. et al. J. Mater. Sci.: Mater. Electron. 2020, Vol. 31, Is. 10, P. 7946–7952.
  6. Roessli B., Schefer J., Petrakovskii G. A., Ouladdiaf B. et al. Formation of a Magnetic Soliton Lattice in Copper Metaborate. Phys. Rev. Lett. 2001, Vol. 86, P. 1885.
  7. Martinez-Ripoll M., Martínez-Carrera S., García-Blanco S. The crystal structure of zinc diborate ZnB4O7. Acta Cryst. 1971, Vol. 27, P. 672–677.
  8. Aplesnin S. S. Existence of massive singlet excitations in an antiferromagnetic alternating chain with S=1/2. Physical Review B – Condensed Matter and Materials Physics. 2000, Vol. 61 (10), P. 6780–6784.
  9. Aplesnin S. S. Influence of spin-phonon coupling on the magnetic moment in 2D spin-1/2 antiferromagnet. Physics Letters, Section A: General, Atomic and Solid State Physics. 2003, Vol. 313 (1–2), P. 122–125.
  10. Aplesnin S. S. Two-particle spin-singlet excitations in coupled spin-1/2 antiferromagnetic alternating chains. Journal of Physics Condensed Matter, 2001. Vol. 13 (14), pp. 3403-3410.
  11. Aplesnin S.S. Nonadiabatic interaction of acoustic phonons with spins S = 1/2 in the two-dimensional heisenberg model. Journal of Experimental and Theoretical Physics. 2003, Vol. 97 (5), P. 969–977.
  12. Aplesnin S. S. Two-dimensional quantum spin liquid with S = 1/2 spins interacting with acoustic phonons. Physics Letters, Section A: General, Atomic and Solid State Physics. 2004, Vol. 333 (5–6), P. 446–449.
  13. Aplesnin S. S., Moskvin A. I. Magnetic structures upon ordering of eg orbitals in a square lattice. Journal of Physics Condensed Matter. 2008, Vol. 20 (32), P. 325202.
  14. Aplesnin S. S., Piskunova N. I. Influence of the four-spin exchange interaction on the magnetic properties of manganites. Journal of Physics Condensed Matter. 2005, Vol. 17 (37), P. 5881–5888.
  15. Aplesnin S. S. Quantum spin liquid in an antiferromagnet with four-spin interactions. Physics of the Solid State. 1997, Vol. 39 (8), P. 1246–1250.
  16. Aleksandrov K. S et al. Electromechanical properties and anisotropy of acoustic wave propagation in CuB2O4 copper metaborate. Physics of the Solid State. 2003, Vol. 45, P. 41–45.
  17. Bergmann D., Hinze J. Electronegativity and Molecular Properties. Angew. Chem. Int. Edn Engl. 1996, Vol. 35, P. 150–163.
  18. Barabanov A. F., Maksimov L. A., Miheenkov A. V. [Spin polaron approach to super-conductivity]. Journal of Experimental and Theoretical Physics Letters. 2001, Vol. 74, No. 6, P. 328–331 (In Russ.).
  19. Petrakovskii G. A., Popov M. A., Roessli B. [Incommensurable magnetic structure in copper metaborate]. JETP. 2001, Vol. 92, P. 809 (In Russ.).
  20. Izyumov Ya. A., Skryabin Yu. N. [Double exchange model and the unique properties of the manganites] Phys. Usp. 2001, Vol. 44, 121–148 (In Russ.).
  21. Ando T., Fowler A. B., Stern F. Electronic properties of two-dimensional systems. Rev. Mod. Phys. 1982, Vol. 54, P. 437.

Supplementary files

Supplementary Files
Action
1. JATS XML
Download

Copyright (c) 2021 Aplesnin S.S., Zelenov F.V., Bandurina O.N., Mashkov P.P.

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.

This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies