A review of phase transitions in RbIn-molybdate

• Autorzy: Zapart M. B. , Zapart W.
• Konferencja: Electron Magnetic Resonance Forum EMR-PL (2; 16-18.05.2013; Częstochowa-Hucisko, Poland )
• Języki publikacji: EN

Abstrakty

EN

The paper gives a brief review of the results of EPR temperature studies of RbIn(MoO4)2 crystal. A sequence of several structural phase transitions has been found in this crystal in the temperature region 84–163 K. The transition at T1 = 163 K leads to an incommensurate triply modulated state, whereas ferroelastic phases start below T2 = 143 K. All the low temperature phases in the temperature region 84–143 K are examples of simultaneously ferroelastic and incommensurate ones. The transition observed at T5 = 84 K seems to suppress the ferroelastic properties of the crystal.

Słowa kluczowe

EN

electron magnetic resonance (EMR); trigonal double molybdates; incommensurate phase; ferroelastics; phase transitions

• Wydawca: Institute of Nuclear Chemistry and Technology
• Czasopismo: Nukleonika
• Rocznik: 2013
• Tom: Vol. 58, No. 3
• Strony: 365--370
• Opis fizyczny: Bibliogr. 40 poz., rys.

Twórcy

autor

Zapart M. B.

• Faculty of Materials Processing Technology and Applied Physics, Institute of Physics, Technical University of Częstochowa, 19 Armii Krajowej Ave., 42-200 Częstochowa, Poland, Tel.: +48 34 325 0619, Fax: +48 34 325 0795

autor

Zapart W.

• Faculty of Materials Processing Technology and Applied Physics, Institute of Physics, Technical University of Częstochowa, 19 Armii Krajowej Ave., 42-200 Częstochowa, Poland, Tel.: +48 34 325 0619, Fax: +48 34 325 0795

Bibliografia

• 1. Abe K, Kawasaki K, Kowada K, Shigenari T (1991) Effect of uniaxial stress on central peaks in the 1q and 3q incommensurate phase of quartz. J Phys Soc Jpn 60:404–407
• 2. Abragam A, Bleaney B (1970) Electron paramagnetic resonance of transition ions. Clarendon Press, Oxford
• 3. Aleksandrova IP, Sukhovsky AA, Aleksandrov KS (1998) Novel incommensurate phase in Cs3Bi2I9. Solid Stat Commun 105:323–326
• 4. Apih TU, Mikac TU, Seliger J, Dolinsek J, Blinc R (1998) Evidence for a 1-q to 3-q transition and 3-q soliton lattice in incommensurate proustite. Phys Rev Lett 80:2225–2228
• 5. Barre S, Mutka H, Roucau C et al. (1991) Influence of defects on the incommensurate modulation in irradiated Na2NaNb5O15. Phys Rev B 43:11154–11161
• 6. Blinc R, Apih T (2002) NMR in multidimensionally modulated incommensurate and CDW systems. Prog Nucl Reson Spectrosc 41:49–82
• 7. Blinc R, Prelovsek P, Rutar V, Seliger J, Zumer S (1986) Experimental observations of incommensurate phases. In: Blinc R, Levanyuk AP (eds) Incommensurate phases in dielectrics. 1. Fundamentals. North-Holland Publishing, Amsterdam, pp 143–276
• 8. Blinc R, Zumer S (1990) NMR line shapes and relaxation in incommensurate systems with a multiple-q modulation Phys Rev B 41:11314–11318
• 9. Cummins HZ (1990) Experimental studies of structurally incommensurate crystal phases. Phys Rep 185:211–411
• 10. Dmitriev SV, Shigenari T, Abe K (1998) Mechanism of transition between 1q and 3q incommensurate phases in two- -dimensional crystal model. Ferroelectrics 217:179–187
• 11. Dolino G (1986) The incommensurate phase of quartz. In: Blinc R, Levanyuk AP (eds) Incommensurate phases in dielectrics. 2. Materials. North-Holland Publishing, Amsterdam, pp 205–232
• 12. Dolino G, Bastie P, Berge B et al. (1987) Stress-induced 3-q-1-q incommensurate phase transition in quartz. Europhys Lett 3:601–699
• 13. Dudnik EF, Stolpakova TM, Kiosse GA (1986) Prostranstvennaya simmetria i osobiennosti segnetoelasticheskikh fazovykh perekhodov v trigonalnykh dvojnykh molibdatakh i volframatakh. Izv Akad Nauk SSSR Seria Fizika 50:2249–2251
• 14. Kiat JM, Uesu Y, Akutsu M, Aubree J (1992) Direct optical observation of the 1q/2q transition in incommensurate Ba2NaNb5O15. Ferroelectrics 125:227–232
• 15. Klevtsova RF, Klevtsov PV (1970) Synthesis and crystal structure of the double molybdates KR(MoO4)2 for R3+ = Al, Sc, and Fe, and of the tungstate KSc(WO4)2. Kristallografiya 15:953–959
• 16. Mączka M, Kojima S, Hanuza J (1998) Heat capacity measurements of the normal incommensurate and lock-in transitions in KSc(WO4)2 and KSc(MoO4)2. J Phys Chem Solids 59:1429–1432
• 17. Norcross JA, Ailion DC (1996) 109Ag NMR lineshape study of the 3q incommensurate insulator proustite (Ag3AsS3). Solid State Commun 98:119–122
• 18. Otko AI, Krainyuk GG, Stolpakova TM, Nosenko AE (1984) Domain switching and crystallographic features of monoclinic ferroelastic phases of some double molybdates and tungstates. Izv Akad Nauk SSSR Seria Fizika 48:1116–1119
• 19. Otko AI, Nesterenko NM, Povstyanyi LV (1978) Phenomenological approach to structural phase transitions in trigonal double molybdates and tungstates. Phys Status Solidi A 46:577–587
• 20. Pan X, Unruh H-G, Feng D (1990) TEM study of the 1q to 2q transition within the incommensurate phase of barium sodium niobate. Ferroelectrics 105:225–230
• 21. Parlinski K, Schranz W, Kabelka H (1989) Phenomenological theory of incommensurate phases in biphenyl. Phys Rev B 39:488–494
• 22. Ryan TW, Gibaud A, Nelmes RJ (1985) An X-ray scattering study of the modulated phases in proustite. J Phys C 18:5279–5287
• 23. Saint-Gregoire P, Luk’yanchuk I (1997) Domain textures of multi-q modulated phases; example of quartz. Ferroelectrics 191:267–273
• 24. Saint-Gregoire P, Luk’yanchuk I, Snoeck E, Roucau C, Janovec V (1996) A novel type of incommensutate phase in quartz: the elongated-triangle phase. Pisma Zh Eksp Teor Fiz 64:376–381
• 25. Subramanian RK, Muntean L, Norcross JA, Ailion DC (2000) 109Ag NMR investigation of atomic motion in the incommensurate and paraelectric phases of proustite (Ag3AsS3). Phys Rev B 61:996–1002
• 26. Toledano JC, Schneck J, Errandonea G (1986) Incommensurate phase of barium sodium niobate. In: Blinc R, Levanyuk AP (eds) Incommensurate phases in dielectrics. 2. Materials. North-Holland Publishing, Amsterdam, pp 233–251
• 27. von Laue L, Ermark F, Gölzhäuser A, Haeberlen U, Häcker U (1996) Structural modulation and low-frequency excitations in the incommensurate phases of biphenyl. J Phys: Condens Matter 8:3977–3992
• 28. Véron A, Emery C, Spiesser M (1994) Domain structure in biphenyl incommensurate phase II observed by electron paramagnetic resonance. J Phys I France 4:1705–1723
• 29. Zapart MB (1992) Possibility of multi-q state in incommensurate RbIn(MoO4)2. Ferroelectrics 137:199–203
• 30. Zapart MB (1993) Incommensurate ferroelastics by electron paramagnetic resonance. Ferroelectrics 141:67–72
• 31. Zapart MB, Stankowski J, Sczaniecki PB, Otko AI (1979) Anomaly of Fe3+ EPR spectrum in RbIn(MoO4)2 monocrystal in the phase transition neighbourhood. Acta Phys Pol A 56:445–447
• 32. Zapart W (1989) Electron paramagnetic resonance in investigations of ferroelastic domain structure. Ferroelectrics 97:137–145
• 33. Zapart W (1990) Possibility of simultaneously incommensurate and ferroelastic phase in RbIn(MoO4)2 by EPR of Cr3+ ion. Phys Status Solidi A 118:477–454
• 34. Zapart W (1990) The successive phase transitions in RbIn(MoO4)2 studied by EPR of admixture ions. Ferroelectrics 105:291–296
• 35. Zapart W, Zapart MB (1990) Incommensurate phase in KSc(MoO4)2 by EPR of Cr3+. Phys Status Solidi A 121:K43–K45
• 36. Zapart W, Zapart MB (2011) Effect of ferroelastic domain pattern changes on the EPR spectra in TDM. Phase Transitions 84:872–884
• 37. Zapart W, Zapart MB, Reng P, Hanuza J, Mączka M (2006) Ferroelastic phase transition in KSc(WO4)2: EPR of Gd3+. Ferroelectrics 337:117–129
• 38. Zapart W, Zapart MB, Schranz W, Reinecker M (2013) Low temperature phase of the trigonal RbIn(MoO4)2 crystal. Phase Transitions 86:123–130
• 39. Zapart MB, Zapart W, Stankowski J, Zviagin AI (1982) Ferroelastic phase transitions in KSc(MoO4)2 monocrystals by electron paramagnetic resonance of Cr3+ ions. Physica B & C 114 B:201–211
• 40. Zapart MB, Zapart W, Zviagin AI (1984) Phase transitions in ferroelastic RbIn(MoO4)2 crystals by electron paramagnetic resonance of Cr3+ ions. Phys Status Solidi A 82:67–73