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Atomic physics --- Atoms. --- Collisions (Nuclear physics) --- Collisions (Nuclear physics).
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Matter --- Nuclear reactions --- Nuclear transformations --- Nuclear transmutation --- Collisions (Nuclear physics) --- Compound nucleus --- Nuclear energy --- Nuclear physics --- Atoms --- Dynamics --- Gravitation --- Physics --- Substance (Philosophy)
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Electrical engineering --- Glow discharges --- Plasma etching --- Sputtering (Physics) --- Décharges luminescentes --- Gravure par plasma --- Pulvérisation cathodiques --- Cathode sputtering --- Collisions (Nuclear physics) --- Surfaces (Technology) --- Dry etching --- Etching --- Cold cathode discharges --- Discharges, Cold cathode --- Discharges, Gas --- Discharges, Glow --- Gas discharges --- Joshi effect --- Electric discharges --- Electric discharges through gases --- Glow discharges. --- Plasma etching. --- Sputtering (Physics). --- Décharges luminescentes --- Pulvérisation cathodiques
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Muons --- -Deep inelastic collisions --- Nuclear structure --- Structure, Nuclear --- Nuclear physics --- Damp inelastic collisions --- Deep inelastic scattering --- Deep inelastic transfers --- Incomplete fusion --- Inelastic collisions, Damp --- Inelastic collisions, Deep --- Quasi-fission --- Relaxed peak process (Nuclear physics) --- Strongly damped collision (Nuclear physics) --- Collisions (Nuclear physics) --- Nuclear reactions --- Mu mesons --- Kaons --- Leptons (Nuclear physics) --- Mesons --- Pions --- Scattering --- -Measurement --- Deep inelastic collisions --- Scattering&delete& --- Measurement --- Collisions (physique nucleaire) --- Diffusion
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Ion implantation --- Sputtering (Physics) --- Ions --- Pulvérisation cathodiques --- Implantation --- 538.9 --- Cathode sputtering --- Collisions (Nuclear physics) --- Surfaces (Technology) --- Implantation, Ion --- Ion bombardment --- Ion plating --- Physics of condensed matter (in liquid state and solid state) --- 538.9 Physics of condensed matter (in liquid state and solid state) --- Pulvérisation cathodiques
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541.13 --- Electrochemistry --- #ABIB:adid --- Chemistry, Physical and theoretical --- 541.13 Electrochemistry --- Electrochemistry. --- #WSCH:FYS3 --- elektrochemie --- Ion-solvent interactions --- Ion-Ion interactions --- PROTONS --- ionic liquids --- ELECTROCHEMISTRY --- IONS --- Monograph --- Ion-ion collisions. --- Protons. --- Ions. --- Intermediates (Chemistry) --- Matter --- Physics --- Solution (Chemistry) --- Electrolysis --- Electrons --- Hydrogen nucleus --- Atoms --- Baryons --- Particles (Nuclear physics) --- Ion-ion interactions --- Collisions (Nuclear physics) --- Properties --- Constitution --- Electrochimie
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Astrophysics --- Cosmogony --- Matter --- Astrophysique --- Cosmogonie --- Matière --- Constitution --- Structure --- Physics --- Nuclear reactions --- Grand unified theories (Nuclear physics) --- Philosophy --- -#gsdbf --- Natural philosophy --- Philosophy, Natural --- Physical sciences --- Dynamics --- Nuclear transformations --- Nuclear transmutation --- Collisions (Nuclear physics) --- Compound nucleus --- Nuclear energy --- Nuclear physics --- Grand unification theories (Nuclear physics) --- GUT (Nuclear physics) --- Unification of fundamental particle interactions (Nuclear physics) --- Unified theories --- Gauge fields (Physics) --- Supergravity --- Supersymmetry --- Unified field theories --- Matière --- History --- #gsdbf --- Physics - Philosophy
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An accessible introduction to string theory, this book provides a detailed and self-contained demonstration of the main concepts involved. The first part deals with basic ideas, reviewing special relativity and electromagnetism while introducing the concept of extra dimensions. D-branes and the classical dynamics of relativistic strings are discussed next, and the quantization of open and closed bosonic strings in the light-cone gauge, along with a brief introduction to superstrings. The second part begins with a detailed study of D-branes followed by string thermodynamics. It discusses possible physical applications, and covers T-duality of open and closed strings, electromagnetic fields on D-branes, Born-Infeld electrodynamics, covariant string quantization and string interactions. Primarily aimed as a textbook for advanced undergraduate and beginning graduate courses, it will also be ideal for a wide range of scientists and mathematicians who are curious about string theory.
String models --- Models, String --- String theory --- 530.19 --- Nuclear reactions --- 530.19 Fundamental functions in general. Potential. Gradient. Intensity. Capacity etc. --- Fundamental functions in general. Potential. Gradient. Intensity. Capacity etc. --- Fundamental functions in general. Potential. Gradient. Intensity. Capacity etc --- String models. --- Modèles des cordes vibrantes (Physique nucléaire) --- Quantum theory --- Modèles des cordes vibrantes (physique nucléaire) --- Théorie quantique --- Théorie quantique. --- Nuclear reactions. --- Nuclear transformations --- Nuclear transmutation --- Collisions (Nuclear physics) --- Compound nucleus --- Nuclear energy --- Nuclear physics
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Experimental atomic and molecular physics --- Theoretical spectroscopy. Spectroscopic techniques --- fysicochemie --- Collision spectroscopy --- 543.42 <061.3> --- 541.65 <061.3> --- 54 --- Spectroscopy, Collision --- Collisions (Nuclear physics) --- Spectrum analysis --- Spectrum analysis. Spectroscopy. Spectrography. Spectrometry. Spectrophotometry. Fluorescence analysis--?<061.3> --- Relation of chemical structure to optical properties--?<061.3> --- Chemistry. Mineralogical sciences --- Collision spectroscopy. --- 54 Chemistry. Mineralogical sciences --- 541.65 <061.3> Relation of chemical structure to optical properties--?<061.3> --- 543.42 <061.3> Spectrum analysis. Spectroscopy. Spectrography. Spectrometry. Spectrophotometry. Fluorescence analysis--?<061.3> --- Electron beams. --- Charge exchange. --- Electron transport. --- Collisions --- Dissociation
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This book aims to provide the basis of theoretical foundation and phenomenological knowledge of the structure of matter at the subatomic level. It starts by presenting the general concepts at the simplest level and does not require previous knowledge of the field, except for the basic quantum mechanics. The readers are gradually introduced to the increasingly more advanced topics, so that this text can accompany students all the way to their graduate and doctoral studies in experimental high-energy physics. Special emphasis is placed on experimental and phenomenological aspects of the field and how measurements and theory interplay in the development of particle physics. The book is based on the authors’ undergraduate and graduate lecture courses at the University of Bologna, Italy.
Astrophysics --- Mathematical physics --- Experimental nuclear and elementary particle physics --- Nuclear physics --- quarks --- astrofysica --- deeltjesfysica --- kernenergie --- wiskunde --- Particle acceleration. --- Nuclear physics. --- Mathematical physics. --- Particles (Nuclear physics) --- Physical mathematics --- Physics --- Atomic nuclei --- Atoms, Nuclei of --- Nucleus of the atom --- Acceleration (Mechanics) --- Elementary particles (Physics) --- High energy physics --- Nuclear particles --- Nucleons --- Mathematics --- Acceleration --- Nuclear reactions --- Particules (Physique nucléaire) --- Réactions nucléaires --- EPUB-LIV-FT LIVPHYSI SPRINGER-B --- Nuclear chemistry --- Nuclear reactions. --- Heavy ions. --- Physics. --- Astrophysics. --- Particle Acceleration and Detection, Beam Physics. --- Nuclear Physics, Heavy Ions, Hadrons. --- Mathematical Methods in Physics. --- Astrophysics and Astroparticles. --- Astronomical physics --- Astronomy --- Cosmic physics --- Natural philosophy --- Philosophy, Natural --- Physical sciences --- Dynamics --- Ions --- 539.1 --- Nuclear transformations --- Nuclear transmutation --- Collisions (Nuclear physics) --- Compound nucleus --- Nuclear energy --- 539.1 Nuclear physics. Atomic physics. Molecular physics --- Nuclear physics. Atomic physics. Molecular physics
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