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   Structure and lattice dynamics of solids.
      Chemical bonds and crystalline fields.
         Hyperfine interaction.
57Fe-Mössbauer study of electrically conductive alkaline iron vanadate glasses
Koken Matsuda, Kazuhiko Akiyama, Tetsuaki Nishida
J. Radioanal. Nucl. Chem., Vol: 299, No: 1 , published: 01 January 2014
The nuclear spin-lattice relaxation of an amorphous Hubbard model
Liu K.L.
Can. J. Chem, Vol: 72, No: 9-10 , 1999
Hyperfine interactions in nanocrystalline Fe-Al alloys
Jartych E., Zurawicz J.K., Oleszak D. et al.
J. Phys.: Condens. Matter. , Vol: 10, No: 22 , 1998
Hyperfine structure and isotope shifts in natural vanadium
Cochrane E.C.A., Benton D.M., Forest D.H., Griffith J.A.R.
J. Phys. A, Vol: 31, No: 17 , 1998
Hyperfine structure and isotope shifts in natural vanadium
Cochrane E.C.A., Benton D.M., Forest D.H., Griffith J.A.R.
J. Phys. A, Vol: 31, No: 17 , 1998
The Pd I spectrum, term system, isotope shift and hyperfine structure-revised and extended analysis based on FTS emission spectroscopy
Engleman R.(Jr.), Litzen U., Lundberg H., Wyart J.-F.
Phys. scr., Vol: 57, No: 3 , 1998
Парамагнитные центры в ион-имплантированных неорганических стеклах
Богомолова Л.Д., Жачкин В.А.
Физ. и химия стекла, Vol: 24, No: 1 , 1998
{57}Fe Mossbauer spectroscopic examination of a single crystal of Fe[3]O[4]
Berry F.J., Skinner S., Thomasd M.F.
J. Phys.: Condens. Matter. , Vol: 10, No: 2 , 1998
Mossbauer study of magnetic properties and structure of amorphous Fe-(Co, Cr)-Zr alloys
Zhigao H.
Jpn. J. Appl. Phys., Part 1, Vol: 37, No: 1 , 1998
Когерентная мессбауэровская рефлектометрия поверхности
Андреева М.А., Гитцович В.Н., Иркаев С.М., Семенов В.Г.
Изв. РАН. Сер. физ., Vol: 62, No: 2 , 1998
Мессбауэровское исследование эффектов локального атомного окружения в формировании магнитных свойств разупорядоченных нанокристаллических и аморфных сплавов Fe[100-x]Sn[x] (0<x<50 ат.%)
Елсуков Е.П., Воронина Е.В., Фомин В.М., Коныгин Г.Н.
Физ. мет. и металловед., Vol: 85, No: 3 , 1998
Об обнаружении "зернограничной фазы" в субмикрокристаллическом железе Мессбауэровским методом
Шабашов В.А., Овчинников В.В., Мулюков Р.Р., Валиев Р.З., Филиппова Н.П.
Физ. мет. и металловед., Vol: 85, No: 3 , 1998
Local structure and connectivity in lithium phosphate glasses: A solid-state {31}P MAS NMR and 2D exchange investigation
Alam T.M., Brow R.K.
J. Non-Cryst. Solids , Vol: 223, No: 1-2 , 1998
Solid-state NMR investigation of phosphorus in aluminoborosilicate glasses
Rong C., Wong-Moon K.C., Li H. et al.
J. Non-Cryst. Solids , Vol: 223, No: 1-2 , 1998
Connectivities of coordination polyhedra in phosphate glasses from {31}P double-quantum NMR spectroscopy
Feike M., Jager C., Spiess H.W.
J. Non-Cryst. Solids , Vol: 223, No: 3 , 1998
Observation of {235}U NMR in the antiferromagnetic state of UO[2]
Ikushima K., Tsutsui S., Saeki M., Nasu S., Date M.
J. Phys. Soc. Jpn., Vol: 67, No: 1 , 1998
A nuclear magnetic resonance study of tetramethylammonium cadmium chloride (TMCC)
Mulla-Osman S., Michel D., Czapla Z., Hoffmann W.-D.
J. Phys.: Condens. Matter. , Vol: 10, No: 11 , 1998
Nuclear magnetic resonance magnetic dipolar spectral density functions for two-dimensional lattice diffusion: Hexagonal
MacDonald D.H., Sholl C.A., Stephenson P.C.L.
J. Phys.: Condens. Matter. , Vol: 10, No: 2 , 1998
Further tests of the coupling model of ionic motions in glassy fast ionic conductors: Conductivity relaxation and {7}Li and {11}B NMR in χLi[2]S-(1-χ)B[2]S[3]
Ngai K.L.
Solid State Ionics, Vol: 105, No: 1-4 , 1998
An NMR investigation of the formation of the crystalline complex (PEO)[3]NaClO[4]
Sawers L.J., Tunstall D.P., Bruce P.G.
Solid State Ionics, Vol: 107, No: 1-2 , 1998
Электронный спиновой резонанс и ядерный магнитный резонанс макроструктур натрия в сильно облученных кристаллах NaCl-K: проявление квазиодномерного поведения электронов
Черкасов Ф.Г., Мустафин Р.Г., Львов С.Г., Денисенко Г.А., ден Хартог Х., Вайнштейн Д.И.
Письма в ЖЭТФ, Vol: 67, No: 3-4 , 1998
Исследование ЯМР {6}Li в LiNbO[3]
Яценко А.В.
Физ. тверд. тела, Vol: 40, No: 1 , 1998
Tilting of the CuO[6] octahedra in La[1.83-x]Eu[0.17]Sr[x]CuO[4] as seen by {151}Eu Mossbauer spectroscopy
Friedrich C., Buchner B., Abd-Elmeguid M.M., Micklitz H.
Phys. Rev. B: Condens. Matter, Vol: 54, No: 2 , 1996
Мессбауэровские исследования CoGa[2-x]Fe[x]O[4] (X=0,8; 1)
Султанов Г.Д., Сеидов З.Ю., Каплиенко А.И.
Физ. низ. температур, Vol: 22, No: 4 , 1996
High-resolution multiple quantum MAS NMR spectroscopy of half-integer quadrupolar nuclei.(Chem. Phys. Letters 249 (1996) 210). Erratum
Wu G., Rovnyak D., Sun B., et al.
Chem. Phys. Lett., Vol: 257, No: 3-4 , 1996
The effect of spin decoupling on line shapes in solid-state nuclear magnetic resonance
Sachleben Joseph R., Caldarelli Stefano, Emsley Lyndon
J. Chem. Phys., Vol: 104, No: 7 , 1996
NMR study of choline methyl group of phospholides
Zhou Z., Okumura Y., Sunamoto J.
Proc. Jap. Acad. B, Vol: 72, No: 2 , 1996
Crystal morphology supports the liquid crystal formation mechanism for the mesoporous molecular sieve MCM-41
Cheng Ch.-F., He H., Zhou W., Klinowski J.
Chem. Phys. Lett., Vol: 244, No: 1-2 , 1995
Time-differential perturbed-angular-correlation and emission Mossbayer studies on {99}Ru dispersed in YBa[2]Cu[3]O[6.8] and UBa[2]Cu[3]O[6]
Ohkubo Y., Kobayashi Y., Harasawa K., Ambe S., Okada T., Ambe F., Asai K., Shibata S.
J. Phys. Chem, Vol: 99, No: 26 , 1995
Cu(2) derived molecular field on Yb{3+} in TmBa[2]Cu[3]O[6] and YbBa[2]Cu[3]O[6]
Hodges J.A., Bonville P., Imbert P., Pinatel-Phillipot A.
J. Magn. Magn. Mater., Vol: 140-1, No: Pt 2 , 1995
A Mossbauer study of the nanocrystallization process in Fe[73.5]CuNb[3]Si[17.5]B[5] alloy
Pradell T., Clavaguera N., Zhu J., Clavaguera-Mora M.T.
J. Phys.: Condens. Matter. , Vol: 7, No: 21 , 1995
Numerical evaluation of Mossbauer spectra from thick absorbers
Stieler W., Hillberg M., Litterst F.J., Bottger Ch., Hesse J.
Nucl. Instrum. Methods Phys. Res., Sect. B , Vol: 95, No: 2 , 1995
Quadrupole doublet inequality in granular Mossbauer absorbers, produced by elongated or flat crystals
Whipple E.R.
Nucl. Instrum. Methods Phys. Res., Sect. A , Vol: 95, No: 4 , 1995
Дальнее сверхтонкое взаимодействие в макрорадикалах полиэтилена
Квачадзе Н.Г., Томашевский Э.Е.
Физ. тверд. тела, Vol: 36, No: 5 , 1994
The thermal reactions of talc studied by {29}Si and {25}Mg MAS NMR
MacKenzie K.J.D., Meinhold R.H.
Thermochim. acta, Vol: 244, No: , 1994
Electric-field gradients at the {181}Ta impurity site in Yb, Y, and Dy sesquioxides
Pasquevich A.F., Bibiloni A.G., Massolo C.P., Renteria M., Vercesi J.A.
Phys. Rev. B: Condens. Matter, Vol: 49, No: 20 , 1994
Electric-field gradient in binary oxides at the {111}Cd impurity site
Weht R., Fabricius G., Weissmann M., Renteria M., Massolo C.P., Bibiloni A.G.
Phys. Rev. B: Condens. Matter, Vol: 49, No: 21 , 1994
Optimization of chemical-shift-based polarization gradients in {1}H NMR spin-diffusion experiments on polymer blends with chemically similar constituents
Campbell G.C., VanderHart D.L.
J. Magn. Reson, Vol: 96, No: 1 , 1992
One-dimensional heteronuclear chemical-shift correlation using chemical-shift-selective filters
Uhrin D., Batta Gy., Kover K.E.
J. Magn. Reson, Vol: 97, No: 1 , 1992
Gradient-echo shifting in fast MRI techniques (GRASE imaging) for correction of field inhomogeneity errors and chemical shift
Feinberg D.A., Oshio K.
J. Magn. Reson, Vol: 97, No: 1 , 1992
A constant-time three-dimensional triple-resonance pulse scheme to correlate intraresidue {1}H{N}, {15}N, and {13}C` chemical shifts in {15}N-{13}C-labeled proteins
Clubb R.T., Thanabal V., Wagner G.
J. Magn. Reson, Vol: 97, No: 1 , 1992
Monitoring of photopolymerization processes by NMR imaging
Gunther U., Albert K., Grossa M.
J. Magn. Reson, Vol: 98, No: 3 , 1992