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Загальна кількість знайдених документів : 151
Представлено документи з 1 до 20
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Ngai K. L. Absolutely necessary to consider the caged dynamics and the JGX <$E bold beta>-relaxation in solving the glass transition problem // Condensed Matter Physics. - 2019. - 22, № 4.
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Dzyubenko M. I. Aluminium barium phosphate glass laser emitting at <$E bold {lambda~= ~1,54~mu roman m}> // Functional Materials. - 2008. - 15, № 3.
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Gevelyuk S. A. An interferometric method of inner surface morphology investigation in porous glass. — 2005 // Фотоэлектроника: Межвед. науч. сб.
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Azhniuk Yu. M. Annealing-induced formation of Sn2P2S6 crystallites in As2S3-based glass matrix // Semiconductor Physics, Quantum Electronics and Optoelectronics. - 2015. - 18, № 3.
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Ramos M. A. Are universal "anomalous" properties of glasses at low temperatures truly universal? // Фізика низ. температур. - 2020. - 46, N 2 (спец. вип.).
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Ramos M. A. Are universal "anomalous" properties of glasses at low temperatures truly universal? // Фізика низ. температур. - 2020. - 46, N 2 (спец. вип.).
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Bazakutsa V. A. Columnar structure of AIBi3C5VI amorphous films // Functional Materials. - 1999. - 6, № 1.
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Yakub L. N. Crystalline and amorphous polymeric solid nitrogen. — 2003 // Физика низ. температур.
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Borysenko M. V. Cu and Cr oxide nanoparticles in silica glass: preparation and spectral study. — 2006 // Наносистеми, наноматеріали, нанотехнології.
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Krivchikov A. I. Deuteration effects in the thermal conductivity of molecular glasses. — 2011 // Физика низ. температур.
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Korynevskii M. A. Dipole glass parameter behaviour for ferro-antiferroelectric solid mixtures // Condensed Matter Physics. - 2013. - 16, № 1.
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Ramos M. A. Do tunneling states and boson peak persist or disappear in extremely stabilized glasses? // Физика низ. температур. - 2015. - 41, № 6 (спец. вып.).
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Rubish V. M. Electric and dielectric properties of glasses of Cu - Sb - S - I system // Semiconductor Physics, Quantum Electronics and Optoelectronics. - 2003. - 6, № 1.
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Kuklina O. V. Experimental distributions of fragments in strong fragmentation // Functional Materials. - 2001. - 8, № 2.
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Zhukov R. N. Formation of the microcrystalline structure in LiNbO3 thin films by pulsed light annealing // Журн. нано- та електрон. фізики. - 2018. - 10, № 2.
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Surzhenko A. B. From symmetric spin glasses toward the percolation threshold: dimensional crossover. — 2004 // Укр. фіз. журн.
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Angelini R. Gel and glass transition in fragile colloidal clays // Condensed Matter Physics. - 2019. - 22, № 4.
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Kokshenev V. B. Generic features of the primary relaxation in glass-forming materials : (the rev. art.) // Физика низ. температур. - 2017. - 43, № 8 (спец. вып.).
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Grytsenko K. Growth and optical properties of dye films and dye-in-polymer matrix deposited by vacuum evaporation // Semiconductor Physics, Quantum Electronics and Optoelectronics. - 2010. - 13, № 2.
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Bakai A. S. Heterophase fluctuations in glass-forming liquids and random field Ising model // Condensed Matter Physics. - 2000. - 3, № 3.
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