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Gases --- Stopping power (Nuclear physics). --- Straggling (Nuclear physics). --- Spectra.
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Helium ions --- Hydrogen ions --- Straggling (Nuclear physics). --- Scattering. --- Scattering.
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Backscattering --- -Ion bombardment --- -Straggling (Nuclear physics) --- -Surfaces (Technology) --- -Thin films --- -538.9 --- Particle range (Nuclear physics) --- Scattering (Physics) --- Beams, Ion --- Bombardment, Ion --- Impact, Ion --- Ion beams --- Ion impact --- Ionic bombardment --- Collisions (Nuclear physics) --- Ions --- Back scatter --- Films, Thin --- Solid film --- Solid state electronics --- Solids --- Surfaces (Technology) --- Coatings --- Thick films --- Congresses --- Effect of radiation on --- -Congresses --- Physics of condensed matter (in liquid state and solid state) --- Thin films --- Ion bombardment --- Straggling (Nuclear physics) --- 538.9 Physics of condensed matter (in liquid state and solid state) --- 538.9 --- Effect of radiation on&delete& --- Thin films - Effect of radiation on - Congresses --- Ion bombardment - Congresses --- Straggling (Nuclear physics) - Congresses --- Backscattering - Congresses --- Surfaces (Technology) - Congresses
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Ion bombardment --- Particle range (Nuclear physics) --- Solids --- 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 --- Solid state physics --- Transparent solids --- Energy loss of nuclear particles --- Range of particles (Nuclear physics) --- Particle tracks (Nuclear physics) --- Straggling (Nuclear physics) --- Beams, Ion --- Bombardment, Ion --- Impact, Ion --- Ion beams --- Ion impact --- Ionic bombardment --- Ions --- Properties --- Measurement
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Particle range (Nuclear physics) --- Ion bombardment --- Semiconductors --- Ion implantation --- 538.9 --- Crystalline semiconductors --- Semi-conductors --- Semiconducting materials --- Semiconductor devices --- Crystals --- Electrical engineering --- Electronics --- Solid state electronics --- Energy loss of nuclear particles --- Range of particles (Nuclear physics) --- Particle tracks (Nuclear physics) --- Particles (Nuclear physics) --- Stopping power (Nuclear physics) --- Straggling (Nuclear physics) --- Implantation, Ion --- Ion plating --- Beams, Ion --- Bombardment, Ion --- Impact, Ion --- Ion beams --- Ion impact --- Ionic bombardment --- Collisions (Nuclear physics) --- Ions --- Physics of condensed matter (in liquid state and solid state) --- Materials --- 538.9 Physics of condensed matter (in liquid state and solid state)
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This monograph focusses on the influence of a strong magnetic field on the interactions between charged particles in a many-body system. Two complementary approaches, the binary collision model and the dielectric theory are investigated in both analytical and numerical frameworks. In the binary collision model, the Coulomb interaction between the test and the target particles is screened because of the polarization of the target. In the continuum dielectric theory one considers the interactions between the test particle and its polarization cloud. In the presence of a strong magnetic field, there exists no suitable parameter of smallness. Linearized and perturbative treatments are not more valid and must be replaced by numerical grid or particle methods. Applications include the electron cooling of ion beams in storage rings and the final deceleration of antiprotons and heavy ion beams in traps.
Stopping power (Nuclear physics) --- Energy dissipation. --- Plasma (Ionized gases) --- Particle range (Nuclear physics) --- Magnetic fields. --- Mathematical models. --- Fields, Magnetic --- Field theory (Physics) --- Geomagnetism --- Magnetics --- Energy loss of nuclear particles --- Range of particles (Nuclear physics) --- Ion bombardment --- Particle tracks (Nuclear physics) --- Particles (Nuclear physics) --- Straggling (Nuclear physics) --- Gaseous discharge --- Gaseous plasma --- Magnetoplasma --- Ionized gases --- Degradation, Energy --- Dissipation (Physics) --- Energy degradation --- Energy losses --- Losses, Energy --- Force and energy --- Atomic stopping power --- Average ionization potential --- Kinetic energy of particles (Nuclear physics) --- Stopping cross section --- Collisions (Nuclear physics) --- Ionization --- Matter --- Nuclear reactions --- Radioactivity --- Linear energy transfer --- Properties --- Measurement --- Classical Electrodynamics. --- Atomic, Molecular, Optical and Plasma Physics. --- Atoms and Molecules in Strong Fields, Laser Matter Interaction. --- Plasma Physics. --- Optics. --- Electrodynamics. --- Atoms. --- Physics. --- Plasma (Ionized gases). --- Natural philosophy --- Philosophy, Natural --- Physical sciences --- Dynamics --- Chemistry, Physical and theoretical --- Stereochemistry --- Physics --- Light --- Constitution
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