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Stopping power (Nuclear physics) --- Helium ions --- Effective range (Nuclear physics) --- Atomic stopping power --- Average ionization potential --- Kinetic energy of particles (Nuclear physics) --- Stopping cross section --- Collisions (Nuclear physics) --- Ionization --- Matter --- Nuclear reactions --- Particles (Nuclear physics) --- Radioactivity --- Linear energy transfer --- Particle range (Nuclear physics) --- Ions --- Heliosphere (Ionosphere) --- Range, Effective (Nuclear physics) --- Potential scattering --- Properties --- Measurement --- Helium ions. --- Effective range (Nuclear physics). --- Stopping power (Nuclear physics).

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Helium ions --- -Hydrogen ions --- -Stopping power (Nuclear physics) --- Atomic stopping power --- Average ionization potential --- Kinetic energy of particles (Nuclear physics) --- Stopping cross section --- Collisions (Nuclear physics) --- Ionization --- Matter --- Nuclear reactions --- Particles (Nuclear physics) --- Radioactivity --- Linear energy transfer --- Particle range (Nuclear physics) --- Monovalent cations --- Ions --- Heliosphere (Ionosphere) --- Scattering --- Properties --- Measurement --- Hydrogen ions --- Stopping power (Nuclear physics) --- Stopping power (Nuclear physics). --- Scattering.

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Mechanical properties of solids --- Stopping power (Nuclear physics) --- Effective range (Nuclear physics) --- Ions --- Indexes --- Scattering --- -Ions --- -Stopping power (Nuclear physics) --- -Atomic stopping power --- Average ionization potential --- Kinetic energy of particles (Nuclear physics) --- Stopping cross section --- Collisions (Nuclear physics) --- Ionization --- Matter --- Nuclear reactions --- Particles (Nuclear physics) --- Radioactivity --- Linear energy transfer --- Particle range (Nuclear physics) --- Intermediates (Chemistry) --- Physics --- Solution (Chemistry) --- Electrolysis --- Electrons --- Range, Effective (Nuclear physics) --- Potential scattering --- -Indexes --- Properties --- Measurement --- Indexes. --- Atomic stopping power --- Scattering&delete&

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Ion bombardment --- Solids --- Stopping power (Nuclear physics) --- Surfaces (Physics) --- Congresses --- Effect of radiation on --- 538.91 --- -Solids --- -Stopping power (Nuclear physics) --- -Surfaces (Physics) --- -538.97 --- Physics --- Surface chemistry --- Surfaces (Technology) --- Atomic stopping power --- Average ionization potential --- Kinetic energy of particles (Nuclear physics) --- Stopping cross section --- Collisions (Nuclear physics) --- Ionization --- Matter --- Nuclear reactions --- Particles (Nuclear physics) --- Radioactivity --- Linear energy transfer --- Particle range (Nuclear physics) --- Solid state physics --- Transparent solids --- Beams, Ion --- Bombardment, Ion --- Impact, Ion --- Ion beams --- Ion impact --- Ionic bombardment --- Ions --- Structures, including transitions --- -Congresses --- Special geometry and interaction with particles and radiation --- Properties --- Measurement --- 538.97 Special geometry and interaction with particles and radiation --- 538.91 Structures, including transitions --- 538.97

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This is a book on the practical approaches of reliability to electrotechnical devices and systems. It includes the electromagnetic effect, radiation effect, environmental effect, and the impact of the manufacturing process on electronic materials, devices, and boards.

Technology: general issues --- History of engineering & technology --- 3D-IC (three-dimensional integrated circuit) --- electromagnetic interference --- near field measurement --- SAC305 --- BGA --- low temperature --- fracture failure --- factorial design of experiment --- genetic algorithm optimization --- return loss --- multiple-input multiple-output (MIMO) --- single event effects --- linear energy transfer --- Monte Carlo simulation --- radiation hardness --- pressureless sintered micron silver joints --- deep space environment --- extreme thermal shocks --- reconstruction --- simulation --- elastic mechanical properties --- state of health --- remaining useful life --- electrochemistry based electrical model --- semi-empirical capacity fading model --- useful life distribution --- quality and reliability assurance --- single event effect --- microdosimetry --- lineal energy --- deconvolution --- gamma process --- lifetime --- measurement system analysis --- reliability estimation --- GaN --- operational amplifier --- proton therapy --- prompt gamma imaging --- 3D X-ray --- bias temperature-humidity reliability test --- conductive anodic filament (CAF) --- de-penalization --- finite element analysis --- 3D-IC (three-dimensional integrated circuit) --- electromagnetic interference --- near field measurement --- SAC305 --- BGA --- low temperature --- fracture failure --- factorial design of experiment --- genetic algorithm optimization --- return loss --- multiple-input multiple-output (MIMO) --- single event effects --- linear energy transfer --- Monte Carlo simulation --- radiation hardness --- pressureless sintered micron silver joints --- deep space environment --- extreme thermal shocks --- reconstruction --- simulation --- elastic mechanical properties --- state of health --- remaining useful life --- electrochemistry based electrical model --- semi-empirical capacity fading model --- useful life distribution --- quality and reliability assurance --- single event effect --- microdosimetry --- lineal energy --- deconvolution --- gamma process --- lifetime --- measurement system analysis --- reliability estimation --- GaN --- operational amplifier --- proton therapy --- prompt gamma imaging --- 3D X-ray --- bias temperature-humidity reliability test --- conductive anodic filament (CAF) --- de-penalization --- finite element analysis