The Proceedings of the Advanced study Institute on Fundamental Processes in Atomic Collision Physics (Santa Flavia, Italy, September 10-21, 1984) are dedicated to the memory of Sir Harrie r-1assey, whose scientific achievements and life are reviewed herein by Sir David Bates. At the first School on the above topic (Maratea, September 1983, Volume 103 in this series), Harrie Massey presented the introductory lectures, summarized the entire lecture program, and presented an outlook on future developments in atomic collision physics. In an after-dinner speech, Massey recalled personal…mehr
The Proceedings of the Advanced study Institute on Fundamental Processes in Atomic Collision Physics (Santa Flavia, Italy, September 10-21, 1984) are dedicated to the memory of Sir Harrie r-1assey, whose scientific achievements and life are reviewed herein by Sir David Bates. At the first School on the above topic (Maratea, September 1983, Volume 103 in this series), Harrie Massey presented the introductory lectures, summarized the entire lecture program, and presented an outlook on future developments in atomic collision physics. In an after-dinner speech, Massey recalled personal reminiscences and historical events with regard to atomic collision physics, to which he had contributed by initiating pioneering work and by stimulating and surveying this branch of physics over a period of almost six decades. Participants in the Maratea School will always remember Harrie Massey as a charming and wonderful person who was most pleased to discuss with everyone--students, postdoctorals, and senior scientists--any topic in atomic collision physics. Harrie Massey was a member of the Scientific Advisory Committee of the 1984 Santa Flavia School. Before his death he expressed his interest in attending this second School devoted to the presentation of recent developments and highlights in atomic collision physics. It is the desire of all authors to honor Harrie Massey with their contributions in these Proceedings.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
H S W Massey Life, Work, Personality and Characteristics. Lectures on Fundamental Processes in Atomic Collision Physics. to Fundamental Interactions in Atomic Collisions. Electron Atom Scattering Theory. Density Matrices, State Multipoles, and Their Physical Interpretation. Polarization Effects in Electron Atom Collisions. Theory of Heavy Particle Collisions. Angular Correlation and Polarization Studies of Atomic Collisions. Ion Molecule Association. Many Body Calculations in Atomic Physics. Angle and Spin Resolved Photoelectron Spectroscopy. Atomic Processes Under Strong Electromagnetic Fields. Particle Atom Collisions in Strong Laser Fields. Applications of Atomic Collision Processes in Astrophysics. The Einstein Podolsky Rosen Paradox Fifty Years Later. Symposium on New Trends in Atomic Collision Physics Honorary Chairman U. Fano. New Applications of Electron Electron Coincidences. Collisional Spectroscopy of Laser Excited Atoms. Anisotropy in Photofragmentation. Low Energy Atom Collisions. Electron Correlation Effects in Electron Atom Collisions. The Role of Electron Spin in Atomic Collisions. Polarization Correlation in Simultaneous Two Photon Decay Processes and Tests of Bell's Inequality. Contributed Papers. Electron Atom Collisions. Stokes Parameters ?1,2,3 and Scattering Parameters ?,? for Positive and Negative Scattering Angles in Electron Photon Coincidence Experiments. A Test of the Influence of the Nuclear Spin in Electron Impact Excitation Processes. Relativistic Third Born Approximation for Electron Capture. Inner Shell Ionization by Transition Radiation. Applications of Stepwise Electron and Laser Excitation of Atoms to Atomic Collision Studies. The Identification of Collisionally Excited Autoionizing States inAluminium. Orbital Angular Momentum Exchange In Post Collision Interaction. Intermediate Energy Electron Impact Spectroscopy at Rio de Janeiro. e e Correlation in (e 2e) Reaction: A Semiclassical Approach. Stimulated Free Free Transitions in a Coulomb Field. Photon Atom Interactions. Multiphotonionization of Xenon. Theoretical Study of the Photoelectron Spectrum of Cesium. Photoionization of Positive Atomic Ions. Calculation of Free Free Radial Dipole Transition Amplitudes: An L2 Basis Approach. Buffer Gas Influence on Ion Collection in Cesium Two Photon Ionization and on UF6 Photodissociation. Ion Atom Collisions. Theoretical Treatment of Atomic Collision Processes. Proton Impact Excitation of the 2p Shell of Sodium Atoms. Calculations of Ion Induced K Shell Ionization. Long Range Processes in Na+ Na(3p) Collisions and Dependence on Initial 3p Excitation. Slow Ion Atom Collisions in the Presence of a Strong Magnetic Field. Calculation of Charge Transfer Cross Section for Electron Capture Collisions by N2+ Ions in Neutral Atoms. K Shell Ionization in Relativistic Heavy Ion Collisions. Excitation of HE I Triplet Levels by Ion Impact. Atomic and Molecular Processes. Nonadiabatic Behaviour in Atomic and Molecular Processes: The Ridge Effect in Mode Transitions. Photon Correlations, Atomic State Correlations and Statistical Distributions. Participants Photo. Author Index.
H S W Massey Life, Work, Personality and Characteristics. Lectures on Fundamental Processes in Atomic Collision Physics. to Fundamental Interactions in Atomic Collisions. Electron Atom Scattering Theory. Density Matrices, State Multipoles, and Their Physical Interpretation. Polarization Effects in Electron Atom Collisions. Theory of Heavy Particle Collisions. Angular Correlation and Polarization Studies of Atomic Collisions. Ion Molecule Association. Many Body Calculations in Atomic Physics. Angle and Spin Resolved Photoelectron Spectroscopy. Atomic Processes Under Strong Electromagnetic Fields. Particle Atom Collisions in Strong Laser Fields. Applications of Atomic Collision Processes in Astrophysics. The Einstein Podolsky Rosen Paradox Fifty Years Later. Symposium on New Trends in Atomic Collision Physics Honorary Chairman U. Fano. New Applications of Electron Electron Coincidences. Collisional Spectroscopy of Laser Excited Atoms. Anisotropy in Photofragmentation. Low Energy Atom Collisions. Electron Correlation Effects in Electron Atom Collisions. The Role of Electron Spin in Atomic Collisions. Polarization Correlation in Simultaneous Two Photon Decay Processes and Tests of Bell's Inequality. Contributed Papers. Electron Atom Collisions. Stokes Parameters ?1,2,3 and Scattering Parameters ?,? for Positive and Negative Scattering Angles in Electron Photon Coincidence Experiments. A Test of the Influence of the Nuclear Spin in Electron Impact Excitation Processes. Relativistic Third Born Approximation for Electron Capture. Inner Shell Ionization by Transition Radiation. Applications of Stepwise Electron and Laser Excitation of Atoms to Atomic Collision Studies. The Identification of Collisionally Excited Autoionizing States inAluminium. Orbital Angular Momentum Exchange In Post Collision Interaction. Intermediate Energy Electron Impact Spectroscopy at Rio de Janeiro. e e Correlation in (e 2e) Reaction: A Semiclassical Approach. Stimulated Free Free Transitions in a Coulomb Field. Photon Atom Interactions. Multiphotonionization of Xenon. Theoretical Study of the Photoelectron Spectrum of Cesium. Photoionization of Positive Atomic Ions. Calculation of Free Free Radial Dipole Transition Amplitudes: An L2 Basis Approach. Buffer Gas Influence on Ion Collection in Cesium Two Photon Ionization and on UF6 Photodissociation. Ion Atom Collisions. Theoretical Treatment of Atomic Collision Processes. Proton Impact Excitation of the 2p Shell of Sodium Atoms. Calculations of Ion Induced K Shell Ionization. Long Range Processes in Na+ Na(3p) Collisions and Dependence on Initial 3p Excitation. Slow Ion Atom Collisions in the Presence of a Strong Magnetic Field. Calculation of Charge Transfer Cross Section for Electron Capture Collisions by N2+ Ions in Neutral Atoms. K Shell Ionization in Relativistic Heavy Ion Collisions. Excitation of HE I Triplet Levels by Ion Impact. Atomic and Molecular Processes. Nonadiabatic Behaviour in Atomic and Molecular Processes: The Ridge Effect in Mode Transitions. Photon Correlations, Atomic State Correlations and Statistical Distributions. Participants Photo. Author Index.
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