Statistics – Computation
Scientific paper
May 1965
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1965saosr.174.....a&link_type=abstract
SAO Special Report #174 (1965)
Statistics
Computation
17
Scientific paper
A conference on the theory of line formation was held at the Observatory on January 20-22, 1965, in conjunction with the Harvard College Observatory. The conference was convened to facilitate discussions among an increasing number of scientists engaged in the study and application of line-transfer theory. An edited transcript of the discussions is presented, together with the following papers: Session I: (1) Introductory Remarks, by C. A. Whitney; (2) Survey of the Problem, by J. T. Jefferies; (3) Theory of the Line Absorption Coefficient, by H. R. Griem; (4) The Emission Coefficient, by D. G. Hummer; (5) Collision Cross Sections, by M. J. Seaton: (6) Dielectronic Recombination, by A. Burgess; (7) The Plasma Microfield, by K. Hunger, R. W. Larenz, and K. Wilke; (8) Computation of the Line Source Function. A Review of the Physical Problem, by R. N. Thomas; (9) Solutions of the Two-Level Line Transfer Problem with Complete Redistribution, by E. H. Avrett; (10) General Noncoherent Scattering, by D. G. Hummer; (11) A New Differential Equation Approach to Transfer Problems, by G. B. Rybicki; (12) A Differential Equation for the Solution of the Non-LTE Line Transfer Problem, by E. Böhm-Vitense (13) Multilevel Problems, by J. T. Jefferies; (14) Radiative Transfer in Lines for Media in Statistical Equilibrium, by W. Kalkofen; (15) Calculations of Collisional-Radiative Decay, by M. J. Seaton; (16) On the Coupled Line-Transfer Problem for Hydrogen, by H. R. Johnson and D. A. Klinglesmith; (17) Solution of the Line and Continuum Transfer Problem for a Three-Level Atom, by W. Kalkofen and E. H. Avrett; (18) Solution of the Transfer Problem, by Y. Cuny; (19) Remarks by J. T. Jefferies Preceding the Paper by G. W. Curtis; (20) Inference of the Line Source Function for the Sodium D Lines, by G. W. Curtis; (21) Sodium Equilibrium and the Na I D Lines, by H. R. Johnson; and (22) The Profiles of the Sodium D Lines, by D. Mugglestone. Session II: (1) An Analysis of Solar Balmer Line Profiles, by O. R. White; (2) Stellar Chromosphere and Ca II H and K Emission, by O. C. Wilson; (3) Observational Requirements for Theory of Formation, of H and K Lines, by L. Goldberg; (4) The Calcium H and K Lines in Solar Plages, by J. B. Zirker; (5) Dielectronic Recombination and the Solar H and K Lines, by R. W. Noyes; (6) Total Fluxes in Strong Emission Lines, by R. G. Athay; (7) Deductions as to Accuracy of LTE from Excitation Temperature Measurements, and a Comment on the Abundance of "Trace Elements"; (8) Micromotions, Macromotions, and Non-LTE Effects, by J. -C. Pecker and F. Roddier; and (9) Non-LTE Effects on Abundance Determination, by R. Cayrel.
Avrett Eugene H.
Gingerich Owen J.
Whitney Charles A.
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