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Quantum mechanics. Quantumfield theory --- 530.145 --- 530.19 --- 530.19 Fundamental functions in general. Potential. Gradient. Intensity. Capacity etc. --- Fundamental functions in general. Potential. Gradient. Intensity. Capacity etc. --- 530.145 Quantum theory --- Quantum theory --- Quantum field theory --- Théorie quantique des champs --- Relativistic quantum field theory --- Field theory (Physics) --- Relativity (Physics) --- Fundamental functions in general. Potential. Gradient. Intensity. Capacity etc
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Champs [Théorie quantique des ] --- Mathématiques appliquées --- Physique théorique --- Quantum field theory --- Quantumvelden [Theorie van de ] --- Theoretische natuurkunde --- Toegepaste wiskunde --- Academic collection --- 530.19 --- Fundamental functions in general. Potential. Gradient. Intensity. Capacity etc. --- 530.19 Fundamental functions in general. Potential. Gradient. Intensity. Capacity etc.
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Superfluidity. --- Phase transformations (Statistical physics) --- Gauge fields (Physics) --- Crystals --- Defects. --- Fields, Gauge (Physics) --- Gage fields (Physics) --- Gauge theories (Physics) --- Lattice defects --- Phase changes (Statistical physics) --- Phase transitions (Statistical physics) --- Condensed degenerate gases --- Degenerate gases, Condensed --- Superfluids --- 530.19 --- 530.19 Fundamental functions in general. Potential. Gradient. Intensity. Capacity etc. --- Fundamental functions in general. Potential. Gradient. Intensity. Capacity etc. --- Superfluidity --- Liquid helium --- Low temperatures --- Quantum statistics --- Superconductivity --- Twinning (Crystallography) --- Field theory (Physics) --- Group theory --- Symmetry (Physics) --- Phase rule and equilibrium --- Statistical physics --- Defects --- Fundamental functions in general. Potential. Gradient. Intensity. Capacity etc --- Crystals - Defects.
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Over the last twenty years quantum field theory has become not only the framework for the discussion of all fundamental interactions (except gravitation) but also for the understanding of second-order phase transitions in statistical mechanics. This advanced volume is based on graduate courses and summer schools given over a number of years by the author. It approaches the subject in terms of path and functional integrals. A Euclidean metric has been adopted and the language of partition and correlation functions is used. Renormalization and the renormalization group are discussed. A major part of the book is devoted to critical phenomena before concluding with a discussion of the role of instantons in quantum field theory.
536.76 --- Critical phenomena (Physics) --- Quantum field theory --- Renormalization (Physics) --- 530.19 --- Charge and mass renormalization --- Mass and charge renormalization --- Electric charge and distribution --- Mass (Physics) --- Physical measurements --- Relativistic quantum field theory --- Field theory (Physics) --- Quantum theory --- Relativity (Physics) --- Phenomena, Critical (Physics) --- Physics --- Relationships deduced from the two laws of thermodynamics. Phase transformations --- Fundamental functions in general. Potential. Gradient. Intensity. Capacity etc. --- Quantum field theory. --- Critical phenomena (Physics). --- Renormalization (Physics). --- 530.19 Fundamental functions in general. Potential. Gradient. Intensity. Capacity etc. --- 536.76 Relationships deduced from the two laws of thermodynamics. Phase transformations --- Fundamental functions in general. Potential. Gradient. Intensity. Capacity etc
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539.12 --- 530.19 --- Elementary and simple particles (charge less than 3 including alpha-rays, beta-rays, gamma-rays as individual particles or as radiation) --- Fundamental functions in general. Potential. Gradient. Intensity. Capacity etc. --- 530.19 Fundamental functions in general. Potential. Gradient. Intensity. Capacity etc. --- 539.12 Elementary and simple particles (charge less than 3 including alpha-rays, beta-rays, gamma-rays as individual particles or as radiation)
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