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Stochastic processes --- Mathematical physics --- Phase transformations (Statistical physics) --- Probabilities --- Spatial analysis --- Congresses --- Phase transformations (Statistical physics) - Congresses --- Probabilities - Congresses --- Stochastic processes - Congresses --- Spatial analysis - Congresses --- Mathematical physics - Congresses
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Critical phenomena (Physics) --- Phase transformations (Statistical physics) --- Congresses --- -Phase transformations (Statistical physics) --- -Phenomena, Critical (Physics) --- Physics --- -Congresses --- Phenomena, Critical (Physics) --- Critical phenomena (Physics) - Congresses --- Phase transformations (Statistical physics) - Congresses
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531.19 --- Statistical mechanics --- 531.19 Statistical mechanics --- Field theory (Physics) --- Phase transformations (Statistical physics) --- Congresses. --- Congresses --- Statistical mechanics - Congresses --- Field theory (Physics) - Congresses --- Phase transformations (Statistical physics) - Congresses
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Statistical physics --- Cristall chemistry --- fysicochemie --- Phase transformations (Statistical physics) --- Lattice dynamics --- Melting points --- Congresses --- -Melting points --- -Phase transformations (Statistical physics) --- -536 --- Chemistry, Physical and theoretical --- Solidification --- Temperature --- Thermochemistry --- Dynamics, Lattice --- Crystal lattices --- Phonons --- Solids --- Heat. Thermodynamics --- 536 Heat. Thermodynamics --- 536 --- Crystal chemistry --- Phase transformations (Statistical physics) - Congresses --- Lattice dynamics - Congresses --- Melting points - Congresses
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Liquid crystals --- Phase transformations (Statistical physics) --- Transitions de phase --- Congresses --- Congrès --- 532.783 --- 544.25 --- -Phase transformations (Statistical physics) --- -#WSCH:MACR --- Crystals, Liquid --- Light sources --- Anisotropic liquids. Liquid crystals --- 532.783 Anisotropic liquids. Liquid crystals --- Congrès --- #WSCH:MACR --- Liquid crystals - Congresses --- Phase transformations (Statistical physics) - Congresses
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Condensed matter --- Phase transformations (Statistical physics) --- Congresses. --- 538.91 --- 538.95 --- -Phase transformations (Statistical physics) --- -Condensed materials --- Condensed media --- Condensed phase --- Materials, Condensed --- Media, Condensed --- Phase, Condensed --- Liquids --- Matter --- Solids --- Structures, including transitions --- Properties and phenomena (except transport properties) --- Congresses --- Conferences - Meetings --- -Structures, including transitions --- 538.95 Properties and phenomena (except transport properties) --- 538.91 Structures, including transitions --- -538.95 Properties and phenomena (except transport properties) --- Condensed materials --- Condensed matter - Congresses. --- Phase transformations (Statistical physics) - Congresses. --- Polymer gelation --- Polymer phase transition --- Thermotropic liquid crystals --- Lyotropic liquid crystals --- Chiral liquid crystal --- Membranes(Fluid-) --- Micellar solutions --- Microemulsions
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This volume is a synopsis of recent works aiming at a mathematically rigorous justification of the phase coexistence phenomenon, starting from a microscopic model. It is intended to be self-contained. Those proofs that can be found only in research papers have been included, whereas results for which the proofs can be found in classical textbooks are only quoted.
Ising-model. --- Percolatietheorie. --- Phase transformations (Statistical physics) --- Ising model. --- Percolation (Statistical physics) --- Transformations de phase (Physique statistique) --- Ising model --- Percolation (Physique statistique) --- Electronic books. -- local. --- Ising model -- Congresses. --- Percolation (Statistical physics) -- Congresses. --- Phase transformations (Statistical physics) -- Congresses. --- Wulff construction (Statistical physics) -- Congresses. --- Atomic Physics --- Mathematical Statistics --- Mathematics --- Physics --- Physical Sciences & Mathematics --- Wulff construction (Statistical physics) --- Lenz-Ising model --- Mathematics. --- Calculus of variations. --- Probabilities. --- Physics. --- Probability Theory and Stochastic Processes. --- Theoretical, Mathematical and Computational Physics. --- Calculus of Variations and Optimal Control; Optimization. --- Natural philosophy --- Philosophy, Natural --- Physical sciences --- Dynamics --- Probability --- Statistical inference --- Combinations --- Chance --- Least squares --- Mathematical statistics --- Risk --- Isoperimetrical problems --- Variations, Calculus of --- Maxima and minima --- Math --- Science --- Lattice theory --- Statistical physics --- Ferromagnetism --- Distribution (Probability theory. --- Mathematical optimization. --- Optimization (Mathematics) --- Optimization techniques --- Optimization theory --- Systems optimization --- Mathematical analysis --- Operations research --- Simulation methods --- System analysis --- Distribution functions --- Frequency distribution --- Characteristic functions --- Probabilities --- Mathematical physics. --- Physical mathematics --- Phase changes (Statistical physics) --- Phase transitions (Statistical physics) --- Phase rule and equilibrium
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recently discovered advantages of amorphous forms of medicines/pharmaceutical products which focused a significant part of industry-related efforts on the GFA (Glass Forming Ability) and the glass temperature (T) versus pressure g dependences. 1 b ? 0 ? ? o ? P ? Pg P ? Pg 0 ? ? ? ? T (P ) = F (P )D (P ) =T 1 + exp ? g g ? 0 ? ? ? ? c + Pg ? ? ? ? 400 1 b 0 o ? ? ? ? P ? P P ? P g g 0 ? ? ? ? T (P ) = F (P )D (P ) =T 1 + exp ? g g 0 ? ? ? ? c ? + P max g ? ? ? ? T ~7 GPa g max P ~ 304 K Liquid g 300 1 HS glass 0 200 -1 mSG ?=0. 044 Liquid -2 100 -3 glass ?=0. 12 -1. 2 -0. 9 -0. 6 -0. 3 0. 0 log T 10 scaled -1 0 1 2 3 4 5 6 7 8 9 10 11 12 P (GPa) g 19 Figure 1. T he pressure evolution of the glass temperature in gl Th ye s cerol ol . id curve shows the parameterization of experimental data via the novel, modifie d Glat Sizm elon type equation, given in the Figure.
Materials -- Thermal properties -- Congresses. --- Materials at high pressures -- Congresses. --- Phase transformations (Statistical physics) -- Congresses. --- Materials at high pressures --- Materials --- Phase transformations (Statistical physics) --- Physics --- Engineering & Applied Sciences --- Atomic Physics --- Applied Physics --- Physical Sciences & Mathematics --- Thermal properties --- Physics. --- Planetology. --- Geotechnical engineering. --- Condensed matter. --- Solid state physics. --- Spectroscopy. --- Microscopy. --- Complexity, Computational. --- Condensed Matter Physics. --- Complexity. --- Geotechnical Engineering & Applied Earth Sciences. --- Solid State Physics. --- Spectroscopy and Microscopy. --- Engineering. --- Planetary sciences --- Planetology --- Construction --- Industrial arts --- Technology --- Computational complexity. --- Analysis, Spectrum --- Spectra --- Spectrochemical analysis --- Spectrochemistry --- Spectroscopy --- Chemistry, Analytic --- Interferometry --- Optics --- Radiation --- Wave-motion, Theory of --- Absorption spectra --- Light --- Spectroscope --- Solids --- Engineering, Geotechnical --- Geotechnics --- Geotechnology --- Engineering geology --- Analysis, Microscopic --- Light microscopy --- Micrographic analysis --- Microscope and microscopy --- Microscopic analysis --- Optical microscopy --- Complexity, Computational --- Electronic data processing --- Machine theory --- Condensed materials --- Condensed media --- Condensed phase --- Materials, Condensed --- Media, Condensed --- Phase, Condensed --- Liquids --- Matter --- Qualitative --- Spectrometry --- Analytical chemistry
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