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SPIN-FLOP TRANSITION, INDUCING THE MAGNITOSTRICTION AND DIELECTRIC ANOMALIES IN α-MnS SINGLE CRYSTAL
- Authors: Abramova G.M.1, Freydman A.L.1, Skorobogatov S.A.1, Vorotynov A.M.1, Zharkov S.M.1, Molokeev M.S.1, Pankrats A.I.1
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Affiliations:
- Kirensky Institute of Physics, Krasnoyarsk Scientific Center, Siberian Branch of the Russian Academy of Sciences
- Issue: Vol 165, No 3 (2024)
- Pages: 396-403
- Section: Articles
- URL: https://bakhtiniada.ru/0044-4510/article/view/256498
- DOI: https://doi.org/10.31857/S004445102403009X
- ID: 256498
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Abstract
The first experimental investigation of the magnetic and magnetistriction properties of the alfa-manganese monosulphide (α-MnS) with the cubic (NaCl-type) structure and antiferromagnetic transition at T=150 K are presented in the temperature range of 4.2–300 K at applied magnetic field up to 90 kOe. It is found, that the field dependences of the magnetization and longitudinal magnitostriction of the α-MnS single crystal have an anomalies, which are correlated with the anomalies of its dielectric permittivity. The spin-flop (SF) transition with Hsf ~ 50–70 kOe governed by the magnetic easy-plane anisotropy was observed in the temperature range below 130 K. Isotermal investigations show that the longitudinal magnetostriction and dielectric permittivity in external magnetic fields reveal its value change of 10-3 at Hsf.
About the authors
G. M. Abramova
Kirensky Institute of Physics, Krasnoyarsk Scientific Center, Siberian Branch of the Russian Academy of Sciences
Author for correspondence.
Email: agm@iph.krasn.ru
Russian Federation, 660036, Krasnoyarsk
A. L. Freydman
Kirensky Institute of Physics, Krasnoyarsk Scientific Center, Siberian Branch of the Russian Academy of Sciences
Email: agm@iph.krasn.ru
Russian Federation, 660036, Krasnoyarsk
S. A. Skorobogatov
Kirensky Institute of Physics, Krasnoyarsk Scientific Center, Siberian Branch of the Russian Academy of Sciences
Email: agm@iph.krasn.ru
Russian Federation, 660036, Krasnoyarsk
A. M. Vorotynov
Kirensky Institute of Physics, Krasnoyarsk Scientific Center, Siberian Branch of the Russian Academy of Sciences
Email: agm@iph.krasn.ru
Russian Federation, 660036, Krasnoyarsk
S. M. Zharkov
Kirensky Institute of Physics, Krasnoyarsk Scientific Center, Siberian Branch of the Russian Academy of Sciences
Email: agm@iph.krasn.ru
Russian Federation, 660036, Krasnoyarsk
M. S. Molokeev
Kirensky Institute of Physics, Krasnoyarsk Scientific Center, Siberian Branch of the Russian Academy of Sciences
Email: agm@iph.krasn.ru
Russian Federation, 660036, Krasnoyarsk
A. I. Pankrats
Kirensky Institute of Physics, Krasnoyarsk Scientific Center, Siberian Branch of the Russian Academy of Sciences
Email: agm@iph.krasn.ru
Russian Federation, 660036, Krasnoyarsk
References
- M. B. Jungfleisch, W. Zhang, and A. Hoffmann, Phys. Lett.A 382, 865 (2018).
- A.A. Bukharaev, A.K. Zvezdin, A.P. Pyatakov et al., Physics-Uspekhi 61, 1175 (2018)
- A.V. Chumak, V. I. Vasyuchka, A.A. Serga et al., Nature Physics 11, 453 (2015).
- E. Aytan, B. Debnath, F. Kargar et al., Apl.Phys. Lett. 111, 252402 (2017).
- S. Palchoudhury, K. Ramasamy, R. Gupta et al., Front.Mater. 5, 83 (2019).
- S. Baierl, J.H. Mentink, M. Hohenleutner et al., Phys.Rev. Lett. 117, 197201 (2016).
- D.A. Balaev, A.A. Krasikov, S. I. Popkov et al., J.Magn.Magn.Mater. 539, 168343 (2021).
- F. L. A.Machado, P.R.T. Ribeiro, J. Holanda et al., Phys.Rev.B 95, 104418 (2017).
- R.B. Pujary, A.C. Lokhande, A.A. Ayday et al., Materias and Design. 108, 511 (2016).
- C.N.R. Rao and K.P.R. Picharody, Prog. Sol. St. Chem. 10, 207 (1976).
- W. L. Roth, J. de Physique, suppl.C7 38, C7-151 (1977).
- M. E. Lines and E.D. Jones, Phys.Rev. 141, 525 (1966).
- B. Morosin, Phys.Rev.B 1, 236 (1970).
- H.H. Heikens, G.A. Wiegers, and C. F. Bruggen, Sol. St.Commun. 24(3), 205 (1977).
- H. van der Heide, C. F. van Bruggen, G.A. Wiegers, and C. Haas, J. Phys.C: Sol. St.Phys. 16, 855 (1983).
- W. Kleemann and F. J. Schafer, J. Magn. Magn. Mater. 25, 317 (1982).
- T.R.Ch. Kant, F. Mayr, and A. Loidl, Phys.Rev.B 77, 024421 (2008).
- J.V. Gerasimova, G.M. Abramova, V. S. Zhandun et al., J.Raman Spectrosc. 50, 1572 (2019).
- A. Tomas, L. Brossard, J. L. Dormann et al., J.Magn.Magn.Mater. 31, 755 (1983).
- G.M. Abramova, Yu.V. Knyazev, O.A. Bayukov et al., Phy. Sol. St. 63, 68 (2021).
- G. Abramova, Ju. Schefer, N. Aliouane et al., J.Aloys Compd. 632, 563 (2015).
- S. S. Aplesnin, L. I. Ryabinkina, G.M. Abramova et al., Phys. Sol. St. 46, 2067 (2004).
- G. Abramova, А. Freydman, E. Eremin et al., J. Supercond.Nov.Magn. 35, 277 (2022).
- D. S. Rodbel and J. Owen, J.Appl.Phys. 35, 1002 (1964).
- T. Yildirim, A.B. Harris, and E. F. Shender, Phys. Rev.B 58, 3144 (1998).
- M.A. Carpenter, Z. Zhang, and Ch. J. Howard, J. Phys.: Cond.Matt. 24, 156002 (2012).
- Z. Zhang, N. Church, S.-Ch. Lappe et al., J. Phys.: Cond.Matt. 24, 215404 (2012).
- G.M. Abramova, G. Petrakovskiy, R. Zuberek, et al., JETP Lett. 90, 207 (2009).
- F. Keeper and W. O’Sullvan, Phys.Rev. 108, 627 (1957).
- D. Bloch, J. L. Feron, R. Georges et al., J.Appl.Phys. 38, 1474 (1967).
- Г.М. Абрамова, А.Л. Фрейдман, В. В. Соколов, Патент RU 2 793 017 C1 (2023).
- L.A. Solovyov, J.Appl.Crystallogr. 37, 743 (2004).
- А.Л. Фрейдман, С.И. Попков, С. В. Семенов, и др., Письма в ЖТФ 44, 79 (2018).
- J. J. Banewicz and R. Lindait, Phys.Rev. 104, 318 (1956).
- Дж. Смарт, Эффективное поле в теории магнетизма, Мир, Москва (1968).
- P. de V. du Plessis, S. J. van Tonder, and L. Alberts, J. Phys.C: Solid State Phys. 4, 2565 (1971).
- T.R. McGuire and W.A. Crapo, J.Appl.Phys. 33, 1291 (1962).
- S. Steger and V.Yu. Pomjakushin, VP Report PSI, Switzerland (2008).
- E.A. Turov, Physical Properties of Magnetically Ordered Crystals, Academic, New York (1965).
- V. S. Mandel, V.D. Voronkov, and D.E. Gromzin, J. Exp.Theor. Phys. 36, 521 (1973).
- A. Pankrats, G. Petrakovskii, L. Bezmatemyik et al., Phys. Sol. St. 50, 79 (2008).
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