Table of Contents

I Low Energy Electron-Molecule Scattering: The Experimental Findings.- Experimental results in electron-molecule inelastic collision experiments.- Low-energy electron scattering in organic molecules.- Electron affinities of orqanic and organometallic compounds determined by means of electron transmission spectroscopy.- Shape resonances in electron-polyatomic molecules collisions.- Low energy experiments on electron-molecule inelastic collisions and threshold peaks: experimental advances.- Dissociative attachment in polar and highly polar molecules.- II Low Energy Electron-Molecule Scattering: The Theoretical Tools.- R-matrix theory of electron-molecule collisions.- Polarization and correlation effects in low energy electron-molecule collisions.- The scattering of slow electrons by polyatomic molecules.- Characterisation of electronuclear correlations in low-energy electron molecule dynamics.- Calculation of effective potentials for the study of shape resonances in open shell diatomics.- Continuum multiple scattering—? calculations of elastic cross sections in electron-molecule scattering.- Projection operator calculations for molecular shape resonances in the optical potential approach.- Electron scattering by N2: from muffin-tin to MCSCF potentials.- On the finite volume variational method based on the logarithmic derivative of the wave function.- A theoretical study of the (Inline) system at low energies.- Dissociative attachment of H2 and its isotope by low energy electron impact.- Numerical asymptotic functions in calculations of electron-molecule scattering.- III Coupling Nuclear Motion with the Impinging Electron: Theoretical Models.- Resonant and non-resonant couplings to the nuclei in electron-molecule collisions.- Non-resonant treatment of associative detachment and dissociative attachment.- Electron dissociative attachment on HCl molecules.- Resonance-resonance coupling in dissociative electron attachment.- Calculation of cross sections for dissociative attachment and vibrational excitation in HCl beyond the local complex potential approximation.- IV Scattering of High-Energy Electrons by Atoms and Molecules: Experimental Studies.- Dipolar electron-molecule experiments.- (e,2e) Chemistry.- Fourier transform of spherically averaged momentum densities.- High resolution studies of inner-shell excited states of atoms and molecules by electron impact excitation.- K-edge excitation in N2, NO, N20 and BF3 studied by angular resolved electron energy-loss spectroscopy.- Correlation effects in Neon studied by elastic and inelastic high energy electron scattering.- Coincidence measurement of the anisotropy of L3M23M23 (1S0) Auger electrons of Argon.- V Molecular Excitation by Electron Impact: The Theoretical Treatments.- Electronic excitation of molecules by electron impact.- High energy electron scattering and electron correlation in atoms and molecules.- Line-shape analysis of energy-loss spectra and photoelectron spectra.- Hole localization effects in molecular inner shell excitation.- The inadequacy of first order theoretical models for ionisation.- VI (e,2e) Reactions for Atoms and Molecules: Experiments and Theoretical Comparisons.- Impulsive (e, 2e) experiments: non dipolar form factor.- Multiple scattering approach to the interpretation of (e,2e) experiments.- The asymmetric (e,2e) reaction at high energy.- Multiple scattering approach to the (e, 2e) reaction of atomic hydrogen.- (e,2e) experiments on He in asymmetric conditions at intermediate energy.- Coincidence measurements in (e,2e) Compton scattering and microcanonical electronic structures.- (e,3e) collisions: a prospective study.- Index of Contributors.