TY - BOOK ID - 208245 TI - Charged Particle Traps : Physics and Techniques of Charged Particle Field Confinement AU - Major, Fouad G. AU - Gheorghe, Viorica N. AU - Werth, Günther. PY - 2005 SN - 1280304928 9786610304929 3540265767 3540220437 3642060374 PB - Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, DB - UniCat KW - Plasma confinement. KW - Electromagnetic fields. KW - Trapped ions. KW - Laser cooling. KW - Cooling KW - Ion trapping KW - Ionic trapping KW - Trapping of ions KW - Ionic mobility KW - Ions KW - Fields, Electromagnetic KW - Magnetic fields KW - Electric fields KW - Confined plasma KW - Confinement of plasma KW - Plasma, Confined KW - Plasma containment KW - Plasma control KW - Plasma isolation KW - Containerless processing KW - Controlled fusion KW - High temperature plasmas KW - Pinch effect (Physics) KW - Mechanics. KW - Classical Mechanics. KW - Nuclear Energy. KW - Particle and Nuclear Physics. KW - Atoms and Molecules in Strong Fields, Laser Matter Interaction. KW - Plasma Physics. KW - Atomic, Molecular, Optical and Plasma Physics. KW - Classical mechanics KW - Newtonian mechanics KW - Physics KW - Dynamics KW - Quantum theory KW - Nuclear energy. KW - Nuclear physics. KW - Atoms. KW - Physics. KW - Plasma (Ionized gases). KW - Gaseous discharge KW - Gaseous plasma KW - Magnetoplasma KW - Ionized gases KW - Natural philosophy KW - Philosophy, Natural KW - Physical sciences KW - Atomic energy KW - Atomic power KW - Energy, Atomic KW - Energy, Nuclear KW - Nuclear power KW - Power, Atomic KW - Power, Nuclear KW - Force and energy KW - Nuclear physics KW - Power resources KW - Nuclear engineering KW - Nuclear facilities KW - Nuclear power plants KW - Chemistry, Physical and theoretical KW - Matter KW - Stereochemistry KW - Atomic nuclei KW - Atoms, Nuclei of KW - Nucleus of the atom KW - Constitution UR - https://www.unicat.be/uniCat?func=search&query=sysid:208245 AB - This book provides an introduction and guide to modern advances in charged particle (and antiparticle) confinement by electromagnetic fields. Confinement in different trap geometries, the influence of trap imperfections, classical and quantum mechanical description of the trapped particle motion, different methods of ion cooling to low temperatures, and non-neutral plasma properties (including Coulomb crystals) are the main subjects. They form the basis of such applications of charged particle traps as high-resolution optical and microwave spectroscopy, mass spectrometry, atomic clocks, and, potentially, quantum computing. ER -