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Ion beam of various energies is a standard research tool in many areas of science, from basic physics to diverse areas in space science and technology, device fabrications, materials science, environment science, and medical sciences. It is an advance and versatile tool to frequently discover applications across a broad range of disciplines and fields. Moreover, scientists are continuously improving the ion beam sources and accelerators to explore ion beam at the forefront of scientific endeavours. This book provides a glance view on MeV ion beam applications, focused ion beam generation and its applications as well as practical applications of ion implantation.
Ion bombardment. --- Ion bombardment --- Industrial applications. --- Beams, Ion --- Bombardment, Ion --- Impact, Ion --- Ion beams --- Ion impact --- Ionic bombardment --- Collisions (Nuclear physics) --- Ions --- Physical Sciences --- Engineering and Technology --- Nuclear Physics --- Physics
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This book is an introductory manual for Ion Assisted Deposition (IAD) procedures of thin films. It is addressed to researchers, post-graduates and even engineers with little or no experience in the techniques of thin film deposition. It reviews the basic concepts related to the interaction of low energy ion beams with materials. The main procedures used for IAD synthesis of thin films and the main effects of ion beam bombardment on growing films, such as densification, stress, mixing, surface flattening and changes in texture are critically discussed. A description of some of the applications
Thin films --- Ion bombardment. --- Beams, Ion --- Bombardment, Ion --- Impact, Ion --- Ion beams --- Ion impact --- Ionic bombardment --- Collisions (Nuclear physics) --- Ions --- Films, Thin --- Solid film --- Solid state electronics --- Solids --- Surfaces (Technology) --- Coatings --- Thick films --- Design and construction. --- Effect of radiation on.
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Introduction to Ion Beam Biotechnology Yu Zengliang, PhD National Key Laboratory of Ion Beam Bioengineering Institute of Plasma Physics Chinese Academy of Sciences Hefei, China Introduction to Ion Beam Biotechnology presents an up-to-date treatment of modern ion beam biotechnology and with respect to applications of ion beam bombardment of living cellular material in the hybrid field of ion beam physics and biology. This focus affirms Springer’s commitment to publishing important introductory topics of emerging areas of interest to bioscience researchers, bioengineers, and their colleagues in affiliated disciplines. Introduction to Ion Beam Biotechnology contains reviews and discussions of contemporary and relevant topics in the field. It is intended to serve both as an introductory textbook at the graduate and advanced undergraduate levels in a bioengineering curriculum, and as a guide and reference for seasoned researchers in the field. Key Topics include: – Ion beam formation – Ion implantation fundamentals – Interaction between energetic ions and biological organisms – Reaction processes of ion implanted biological small molecules – Damage and repair of ion-bombarded DNA – Cell damage due to ion bombardment – Biological effects of ion implantation – Fundamentals of ion-bombardment-induced genetic variation – Ion beam mutation breeding of crops – Ion beam mutation breeding of microbes – Ion beam induced gene transfer – Ion beam induced synthesis of organic molecules – Single-ion bombardment mutation of cells This compendium on this novel new area of scientific research is essential reading for all academics, research scientists, biologists, and industry professionals wishing to take advantage of the latest developments in this emerging field. About the Author: Prof. Yu Zengliang is a pioneer and major figure in the field of ion beam biotechnology. An internationally recognized scientist with numerous publications, Prof. Yu is Director of the National Key Laboratory of Ion Beam Bioengineering, Institute of Plasma Physics, Chinese Academy of Sciences, at Hefei, People's Republic of China.
Ion bombardment --- Ion bombardment. --- Industrial applications. --- Beams, Ion --- Bombardment, Ion --- Impact, Ion --- Ion beams --- Ion impact --- Ionic bombardment --- Collisions (Nuclear physics) --- Ions --- Biotechnology. --- Microbiology. --- Biochemistry. --- Biochemistry, general. --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Biology --- Chemistry --- Medical sciences --- Microbial biology --- Microorganisms --- Chemical engineering --- Genetic engineering --- Composition
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This handbook is a timely resource for the rapidly growing field of heavy-ion transport-model theory and its applications to the fields of accelerator development, heavy-ion radiotherapy, and shielding of accelerators and in space. Data from over 20 years of experiments in the production of secondary neutrons and spallation products are contained in the handbook, and are available on the accompanying CD. Transport modelers and experimentalists will find the detailed descriptions of the experiments and subsequent analyses to be a valuable aid in utilizing the data for their particular applicati
Heavy ion collisions --- Ion bombardment --- Heavy ion accelerators --- Accelerators, Heavy ion --- Heavy ion linac --- Heavy ion linear accelerators --- Hilac --- Linac, Heavy ion --- Ion accelerators --- Linear accelerators --- Beams, Ion --- Bombardment, Ion --- Impact, Ion --- Ion beams --- Ion impact --- Ionic bombardment --- Collisions (Nuclear physics) --- Ions --- Deep inelastic collisions
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Accelerators
Atomic physics --- Collisions (Nuclear physics) --- Ion bombardment. --- Ion bombardment --- Collisions (Physique nucléaire) --- Bombardement ionique --- ELSEVIER-B EPUB-LIV-FT --- Collisions (Nuclear physics). --- Addresses, essays, lectures --- Beams, Ion --- Bombardment, Ion --- Impact, Ion --- Ion beams --- Ion impact --- Ionic bombardment --- Ions --- Bombardment with particles --- Electron collisions --- Impact phenomena (Nuclear physics) --- Nuclear collisions --- Particle collisions (Nuclear physics) --- Particles (Nuclear physics) --- Collisions (Physics) --- Collisions --- Ion bombardment - Addresses, essays, lectures --- Collisions (Nuclear physics) - Addresses, essays, lectures --- Collisions (nuclear physics)
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Dental resins --- Composite materials --- Surfaces (Technology) --- Ion bombardment. --- X-ray spectroscopy. --- Emission spectroscopy, X-ray --- Energy dispersive x-ray spectroscopy --- Excitation analysis, Fluorescent --- Fluorescence analysis, X-ray --- Fluorescent excitation analysis --- Fluorescent x-ray spectroscopy --- X-ray emission spectroscopy --- X-ray fluorescence analysis --- XES (X-ray emission spectroscopy) --- Spectrum analysis --- Beams, Ion --- Bombardment, Ion --- Impact, Ion --- Ion beams --- Ion impact --- Ionic bombardment --- Collisions (Nuclear physics) --- Ions --- Composites (Materials) --- Multiphase materials --- Reinforced solids --- Solids, Reinforced --- Two phase materials --- Materials --- Resins, Dental --- Dental materials --- Gums and resins, Synthetic --- Characterization of surface --- Surface analysis --- Surface characterization --- Analytical chemistry --- Surface chemistry --- Spectra. --- Analysis.
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Intense Ion and Electron Beams treats intense charged-particle beams used in vacuum tubes, particle beam technology and experimental installations such as free electron lasers and accelerators. It addresses, among other things, the physics and basic theory of intense charged-particle beams; computation and design of charged-particle guns and focusing systems; multiple-beam charged-particle systems; and experimental methods for investigating intense particle beams. The coverage is carefully balanced between the physics of intense charged-particle beams and the design of optical systems for their formation and focusing. It can be recommended to all scientists studying or applying vacuum electronics and charged-particle beam technology, including students, engineers and researchers.
Electron beams. --- Ion bombardment. --- Beams, Ion --- Bombardment, Ion --- Impact, Ion --- Ion beams --- Ion impact --- Ionic bombardment --- Collisions (Nuclear physics) --- Ions --- Beams, Electron --- Electron optics --- Electronics --- Particle beams --- Electronics. --- Particle acceleration. --- Atomic, Molecular, Optical and Plasma Physics. --- Particle and Nuclear Physics. --- Electronics and Microelectronics, Instrumentation. --- Particle Acceleration and Detection, Beam Physics. --- Measurement Science and Instrumentation. --- Classical Electrodynamics. --- Particles (Nuclear physics) --- Acceleration (Mechanics) --- Nuclear physics --- Electrical engineering --- Physical sciences --- Acceleration --- Atoms. --- Physics. --- Nuclear physics. --- Microelectronics. --- Physical measurements. --- Measurement . --- Optics. --- Electrodynamics. --- Natural philosophy --- Philosophy, Natural --- Dynamics --- Physics --- Light --- Measuring --- Mensuration --- Mathematics --- Technology --- Metrology --- Physical measurements --- Chemistry, Physical and theoretical --- Matter --- Stereochemistry --- Measurements, Physical --- Mathematical physics --- Measurement --- Microminiature electronic equipment --- Microminiaturization (Electronics) --- Microtechnology --- Semiconductors --- Miniature electronic equipment --- Atomic nuclei --- Atoms, Nuclei of --- Nucleus of the atom --- Constitution
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The emission of electrons from solid surfaces bombarded by slow neutral and ionized heavy particles (atoms, molecules) is reviewed both theoretically and in the light of recent experimental studies by leading groups in the field: Kinetic emission from grazing incidence of atoms and kinetic and potential emission from grazing incidence of singly and multiply charged ions on monocrystalline metal and insulator surfaces; modelling of slow electron transport in solids; emission of spin-polarized electrons by ion neutralization; electron emission from slow ion induced plasmons and excitons.
Electronic books. -- local. --- Electrons -- Emission. --- Heavy particles (Nuclear physics). --- Ion bombardment. --- Solids -- Effect of radiation on. --- Surfaces (Technology) -- Effect of radiation on. --- Electrons --- Ion bombardment --- Surfaces (Technology) --- Solids --- Heavy particles (Nuclear physics) --- Atomic Physics --- Nuclear Physics --- Physics --- Physical Sciences & Mathematics --- Emission --- Effect of radiation on --- Collisions (Nuclear physics) --- Festkörperoberfläche. --- Ioneninduzierte Elektronenemission. --- Emission. --- Effect of radiation on. --- Collisions (Nuclear physics). --- Solids, Effect of radiation on --- Materials --- Surface phenomena --- Beams, Ion --- Bombardment, Ion --- Impact, Ion --- Ion beams --- Ion impact --- Ionic bombardment --- Electron emission --- Electronic work function --- Emission of electrons --- Work function, Electronic --- Surfaces --- Physics. --- Nuclear physics. --- Heavy ions. --- Hadrons. --- Condensed matter. --- Engineering. --- Thin films. --- Condensed Matter Physics. --- Nuclear Physics, Heavy Ions, Hadrons. --- Surfaces and Interfaces, Thin Films. --- Engineering, general. --- Surfaces. --- Films, Thin --- Solid film --- Solid state electronics --- Coatings --- Thick films --- Friction --- Surfaces (Physics) --- Tribology --- Construction --- Industrial arts --- Technology --- Condensed materials --- Condensed media --- Condensed phase --- Materials, Condensed --- Media, Condensed --- Phase, Condensed --- Liquids --- Matter --- Strongly interacting particles --- Particles (Nuclear physics) --- Partons --- Ions --- Atomic nuclei --- Atoms, Nuclei of --- Nucleus of the atom --- Natural philosophy --- Philosophy, Natural --- Physical sciences --- Dynamics --- Radiation --- Electric discharges through gases --- Electron work function --- Free electron theory of metals --- Internal conversion (Nuclear physics) --- Surfaces (Physics). --- Surface chemistry --- Materials—Surfaces.
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This book introduces materials scientists and designers, physicists and chemists to the properties of materials that can be modified by ion irradiation or implantation. These techniques can help design new materials or to test modified properties; novel applications already show that ion-beam techniques are complementary to others, yielding previously unattainable properties. Also, ion-beam interactions modify materials at the nanoscale, avoiding the often detrimental results of lithographic or chemical techniques. Here, the effects are related to better-known quasi-equilibrium thermodynamics, and the consequences to materials are discussed with concepts that are familiar to materials science. Examples addressed concern semiconductor physics, crystal and nanocluster growth, optics, magnetism, and applications to geology and biology.
Ion bombardment. --- Ions. --- Manufactured materials. --- Materials science. --- Ion bombardment --- Materials science --- Microbiological Techniques --- Methods --- Manufactured Materials --- Ions --- Investigative Techniques --- Electrolytes --- Clinical Laboratory Techniques --- Technology, Industry, and Agriculture --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Inorganic Chemicals --- Technology, Industry, Agriculture --- Chemicals and Drugs --- Physics - General --- Nuclear Physics --- Electricity & Magnetism --- Physics --- Physical Sciences & Mathematics --- Material science --- Beams, Ion --- Bombardment, Ion --- Impact, Ion --- Ion beams --- Ion impact --- Ionic bombardment --- Engineering. --- Particle acceleration. --- Condensed matter. --- Semiconductors. --- Mechanics. --- Mechanics, Applied. --- Optical materials. --- Electronic materials. --- Theoretical and Applied Mechanics. --- Optical and Electronic Materials. --- Materials Science, general. --- Particle Acceleration and Detection, Beam Physics. --- Condensed Matter Physics. --- Physical sciences --- Collisions (Nuclear physics) --- Mechanics, applied. --- Materials. --- Particles (Nuclear physics) --- Acceleration (Mechanics) --- Nuclear physics --- Engineering --- Engineering materials --- Industrial materials --- Engineering design --- Manufacturing processes --- Optics --- Materials --- Applied mechanics --- Engineering, Mechanical --- Engineering mathematics --- Acceleration --- Condensed materials --- Condensed media --- Condensed phase --- Materials, Condensed --- Media, Condensed --- Phase, Condensed --- Liquids --- Matter --- Solids --- Crystalline semiconductors --- Semi-conductors --- Semiconducting materials --- Semiconductor devices --- Crystals --- Electrical engineering --- Electronics --- Solid state electronics --- Electronic materials --- Classical mechanics --- Newtonian mechanics --- Dynamics --- Quantum theory
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