Elementary processes in hydrogen-helium plasmas : cross sections and reaction rate coefficients

1. Introduction.- 1.1 Previous Surveys.- 1.2 Scope of Present Survey.- 1.3 Organization of Information.- 1.4 Sources and Criteria for Selection and Evaluation of Data.- 1.5 Accuracy.- 1.6 References.- 1.7 Digitization of the Cross Sections.- 1.8 Calculation of Reaction Rate Coefficients.- 1.9 Numerical Fits to a and ????.- 1.10Example of Use of Fits.- 2. Electron Impact Collision Processes.- 2.1 Electron Collisions with H and H+.- 2.2 Electron Collisions with H2, H2+, and H3+.- 2.3 Electron Collisions with He, He+, and He2+.- 3. Proton Impact Collision Processes.- 3.1 Proton Collisions with H.- 3.2 Proton Collisions with H2 and H2+.- 3.3 Proton Collisions with He and He*.- 4. Collision Processes and Reactions of H2+ Ions.- 4.1 General Remarks.- 4.2 Collisions of H2+ with H.- 4.3 Collisions of H2+ with H2.- 4.4 Collisions of H2+ with He.- 5. Collision Processes of He+.- 5.1 General Remarks.- 5.2 Collisions of He+ with H2.- 5.3 Collisions of He+ with He.- 6. Collision Processes of He2+.- 6.1 Collisions of He2+ with H.- 6.2 Collision of He2+ with H2.- 6.3 Collisions of He2+ with He.- 7. Collision Processes of H-.- 7.1 Electron Collisions with H-.- 7.2 Proton Collisions with H-.- 7.3 Collisions of H with H-.- 8. Analytic Fits.- 8.1 Fits for ?.- 8.2 Polynomial Fits for ???? for Fixed E : Electron Reactions.- 8.3 Double Polynomial Fits for ????.- A. Oscillator Strengths, Radiative Rates, and Excitation Energies for Hydrogen and Helium.- References.