ÏÓÁËÈÊÀÖÈÈ ÇÀ ÏÎÑËÅÄÍÈÅ 5 ËÅÒ
Ñ Ó×ÀÑÒÈÅÌ ÑÎÒÐÓÄÍÈÊΠËÀÁÎÐÀÒÎÐÈÈThe lead magnoniobate behavior in applied electric field,
Ferroelectrics v.151, (1994), pp.337-342
The high-temperature structure of lead magnoniobate
J.Phys.:Condens. Matter, v.6, (1994), pp. 4021-4027
X-ray Analysis and Computer Modeling of the Structure of `Relaxor` Ferroelectrics
Pb3MgNiO9 and Pb2ScTaO6 in Paraelectric State
J. Appl. Cryst. 28, (1995), pp.385-391
Fizika Tv. Tela v.37(12), (1995), pp.3621-3629 (in Russian)
Phys. Solid State 37(12), (1995), pp.1993-1997
Long-Time Relaxation of Dielectric Response in Lead Magnoniobate
Phys. Rev. Lett. v.74(9), (1995), pp.1681-1684
Phys. Rev. B52(7), 1995, pp.4772-4774
Properties of field induced ferroelectric phase transition in single-crystal lead magnoniobate,
Fizika Tv. Tela v.38(7), (1996), pp.2183-2194 (in Russian)
Phys. Solid State 38(7), (1996), pp.1202-1207
Field induced kinetic ferroelectric phase transition in lead magnoniobate,
Ferroelectrics, v.184, (1996), pp. 209-215
Ferroelectric phase transition in materials embedded in porous media,
Ferroelectric Letters, v.20, (1996), pp.143-147
Synchrotron X-ray scattering study of lead magnoniobate relaxor ferroelectric crystals,
J. Phys. Chem. Solids v.57(10), (1996), pp.1517-1523
Local atomic structure of relaxor ferroelectric solids determined by pulsed neutron and X-ray scattering
Ferroelectrics, v.199, (1997), pp. 103-113
Structural study of Pb(Mg1/3Nb2/3)O3 at low temperatures
Ferroelectric Lett., v.23, (1997), pp. 45-53
X-ray study of the kinetic of field induced transition from the glass-like to the ferroelectric phase in lead magnoniobate,
Solid State Comm., v.103(8), (1997), pp. 477-482
Effect of electric field on neutron scattering in lead magnoniobate,
Fizika Tv. Tela, v.40(10), (1998), pp.1905-1910 (in Russian) .
Phys. Solid State v.40(10), (1998), pp. 1728 - 1733
Inelastic neutron scattering study of the relaxor ferroelectric PbMg1/3Nb2/3O3 at high temperatures,
Eur. Phys. Journal, B11, (1999), pp.13-20
Peculiarities of (PbMg1/3Nb2/3O3)0.6 – (PbTiO3)0.4 solid solution crystal structure
Fizika Tv. Tela, v.41(7), (1999), pp.1282-1285 (in Russian)
Ferroelectric phase transition in materials embedded in porous media
NanoStructured Materials, v.12, (1999), pp. 963-966