Abstract
Applied pressures change interatomic distances and therefore influence magnetic moments and exchange interaction in solids. Magnetic neutron diffraction is the most informative method to study long-range spin arrangements. We describe experimental techniques for high-pressure low-temperature neutron diffraction and give examples of recent studies of magnetic structures under very high pressures up to 50 GPa.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Izymov, Y.A., and Ozerov, R.P. (1970), Magnetic neutron diffraction, Plenum Press, New York.
See, for example, Glazkov, V.P., Besedin, S.P., Goncharenko, I.N., Irodova, A.V., Makarenko, I.N., Somenkov, V.A., Stishov, S.M., Shilshtein, S.Sh. (1988), Equation of state of molecular deuterium under very high pressures, neutron diffraction study, JETP Lett. 47, 763–767.
See, for example Goncharenko I.N., Irodova A.V., Somenkov V.A. (1991), Neutron diffraction study of crystal structure and equation of state of A1D3 up to the pressure of 7.2GPa, Physica B 174, 117–121;
Goncharenko, I.N., Besedin, S.P., Glazkov, V.P., Somenkov V.A. (1990), Compresibility of deutendes of Ni and Pd, Soviet. Phys. Solid State 32, 3448–3450.
See, for example,. Besson, J.M., Nelmes, R.J., Hamel, G., Loveday, J.S., Weil, G., Hull, S. (1992), Neutron powder diffraction above 10 GPa, Physica B 180&181, 907–910.
Goncharenko, I.N., Mignot, J.-M., Andre, G., Lavrova, O.A., Mirebeau, I., Somenkov, V.A. (1995), Neutron diffraction studies of magnetic structure and phase transitions at very high pressures, High Pressure Research 14, 41–53;
Goncharenko, I.N., Mignot, J.-M., Mirebeau, I. (1996), Magnetic diffraction studies under very high pressures at the Orphée reactor, Neutron News 7, No. 3, 29–31.
For a review see Jayaraman, A. (1983), Diamond anvil cell and high-pressure physical investigations, Review of Modern Physics 55, 65–108.
Goncharenko I.N., Glazkov V.P., Irodova A.V., Lavrova O.A., Somenkov V.A. (1992), Compressibility of dihydrides of transition metals, J. Alloys and Comp. 179, 253–257;
Glazkov, V.P., Goncharenko, I.N., Somenkov, V.A. (1988), Neutron diffraction study of compressibility of YBa2Cu3O7” Soviet Phys. Solid State 30, 2127–2129.
Goncharenko, I.N., Mirebeau, I., Molina, P., Böni, P. (1988), Focusing neutrons to study small samples, Physica B 234, 1047–1048.
Mignot, J.-M., Goncharenko, I.N., Link, P., Matsumora, T., Suzuki, T. (2000), Single-crystal neutrondiffraction under high pressures: valence instabilities in Tm monochalcogenides, Hyperfine Interact. 128, 207–224.
Rossat-Mignod, J., Lander, G.H., Burlet, P. (1984), in Freeman A.J., Lander G.H. (eds.), Handbook on the Physics and Chemistry of Rare Earths, Elsevier, Amsterdam, p.415.
Link, P., Benedict, U., Wittig, J., Wühl, H. (1992), High-pressure resistance study of UTe, Journal of Physics Condesed Matter 4, 5585–5589;
Link, P., Benedict, U., Wittig, J., Wühl, H. (1993), The electrical resistance of USe under high pressure, Physica B 190, 68 – 71.
Herrmannsdörfer, T., Fischer, P., Strässle, T., Goncharenko, I.N., Mattenberger, K., Vogt, O. (2002), Temperature and pressure dependence of the ordered magnetic U moment of USe, Appl. Phys. A 74 [Suppl.], S754-S756.
Siemann, R., Cooper, B.R. (1980), Planar coupling mechanism explaining anomalous magnetic structures in cerium and actinide intermetallics, Phys. Rev. Lett. 44, 1015–1019;
Kasuya, T. J. (1995), Comparison between Ce-monopnictides and An-monopnictides: Strong mixing effect, J. Alloys Comp. 223, 251–264.
Goncharenko, I.N., Mignot, J.-M., Somenkov, V.A., Rossat-Mignod, J., Vogt O. (1994), Magnetic phase diagram of UAs at very high pressures up to 50 kbar, Physica B 199&200, 625–627.
Braithwaite, D., Goncharenko, I.N., Mignot, J.-M., Ochiai, A., Vogt, O. (1996), Magnetic phase diagram of USb at high pressures, Europhys. Lett. 35, 121–126.
Mignot J.-M., Goncharenko, I.N., Braithwaite, D., Vogt O. (1996), Neutron-Diffraction Study of magnetic order in uranium monopnictides at High Pressures, J. Phys. Soc. Jpn 65, Suppl. B, 91–98.
For a review, see Wachter, P. (1979), Europium chalcogenides: EuO, EuS, EuSe and EuTe, in Gschneider, K.A. and Eyring L. (eds.), Handbook on the Physics and Chemistry of Rare Earths, NorthHolland Publishing Company, vol. 2, pp.507–573;
see also Zinn, W. (1976), Microscopic studies of magnetic properties and interactions. Recent results on europium monochalcogenides. J. Magn. Magn. Mater. 3, 23–36.
Kasuya T. (1972), s-f exchange interactions and magnetic semiconductors, CRC Critical Review in Solid State Science 3, 131–164,
Kasya T. (1970), Exchange mechanisms in europium chalcogenides, IBM J Res. Develop. 14, 214–223.
Klein U.F., Wortmann G., Kalvius G.M. (1976), Effect of pressure on Néel temperature and hyperfine interactions in EuTe studied by Mössbauer spectroscopy. Physica B+C 86–88, 118–120.
Klein U.F., Moser J., Wortmann G., Kalvius G.M. (1976), High-pressure Mössbauer study of hyperfine interactions in magnetically ordered europium chalcogenides: EuO, EuS, EuTe, J Magn. and Magn. Mater. 3, 50–54;
Moser, J., Wortmann, G., Bykovetz, N., Kalvius, G.M. (1979), High-pressure study of the curie temperatures and transferred hyperfine fields at 151Eu and substitutional 195n in EuS and EuSe, J Magn. and Magn. Mater. 12, 77–82.
Abd-Elmeguid, M.M., Taylor, R.D. (1990), Onset of valence and magnetic instabilities in the ferromagnetic semiconductor EuO at high pressure, Phys. Rev. B 42, 1048–1051.
Fujiwara, H., Kadomatsu, H., Kurisu, M., Hihara, T., Kojima, K., Kamagaichi, T. (1982), Pressureinduced magnetic transition in EuSe, Solid State Commun. 42, 509–511.
Schwob, P, Vogt, O. (1967), The shift of the ferromagnetic Curie temperature in EuS by hydrostatic pressure, Phys. Lett. 24A, 242–244.
Tissen, V.G., Ponyatovskii, E.G. (1987), JETP Lett. 46, 361–364.
Goncharenko, I.N., Mirebeau, I. (1997), Magnetic order in EuTe under pressures up to 17 GPa. A neutron study, Europhys. Lett. 37, 633–638.
Ishizuka, M., Kai, Y., Akimoto, R., Kobayashi, M., Amaya, K., Endo, S. (1997), Pressure induced ferromagnetism in EuTe, J Magn. Magn. Mater. 166, 211–215.
Goncharenko, I.N., Mirebeau, I. (1998), Ferromagnetic interactions in EuS and EuSe, studied by neutron diffraction at pressures up to 20.5 GPa, Phys. Rev. Lett. 80, 1082–1085;
Goncharenko, I.N., Mirebeau, I. (1998), Magnetic neutron diffraction at very high pressures. Study of Europium monochalchogenides, Rev. High Pressure Sci. Technol. 7, 475–480.
Goncharenko, I.N., Mirebeau, I., Ochiai, A. (2000), Magnetic neutron diffraction under pressures up to 43 GPa. Study of the EuX and GdX compounds, Hyperfine Interact. 128, 225–244.
Lübbers, R., Rupprecht, K., Wortmann, G. (2000), High-pressure Mössbauer study of magnetism in RFe2 Laves phases and Eu-chalcogenides, Hyperfine Interact. 128, 115–135.
Wachter, P. (1969), Pressure dependence of the absorption edge of the europium chalcogenides, Solid State Commun. 7, 693–696.
Mirebeau, I., Goncharenko, I.N., Cadavez-Peres, P., Bramwell, S.T., Gingras, M.J.P., Gardner, J.S. (2002), Pressure-induced crystallization of a spin liquid, Nature 420, 54–57.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2004 Springer Science+Business Media New York
About this paper
Cite this paper
Goncharenko, I.N. (2004). Magnetic Properties of Crystals and their Studies at High-Pressure Conditions. In: Katrusiak, A., McMillan, P. (eds) High-Pressure Crystallography. NATO Science Series, vol 140. Springer, Dordrecht. https://doi.org/10.1007/978-1-4020-2102-2_20
Download citation
DOI: https://doi.org/10.1007/978-1-4020-2102-2_20
Publisher Name: Springer, Dordrecht
Print ISBN: 978-1-4020-1954-8
Online ISBN: 978-1-4020-2102-2
eBook Packages: Springer Book Archive