Page:Journal of the Optical Society of America, volume 30, number 12.pdf/93




 * Color and colorimetry (continued) :Science visits the artist, William L. Longyear—274(A)
 * Some problems and methods of dyestuffs automatic spectrophotometry, I. H. Godlove—89(A):Spectral luminosity factors, K. S. Gibson—51
 * Survey of instruments in use in the pulp and paper industry—273(A)
 * Theory of subtractive color photography, J. A.C. Yule—322
 * There is system in color preferences, J. P. Guilford—455
 * Trichromatic analysis of the Munsell Book of Color, J. J. Glenn and J. T. Killian—609
 * United States color standards for rosin, Brooks A. Brice—152
 * Use of instruments: in beater furnish, R. N. Griesheimer—273(A); in coated paper, William J. Foote—274(A); in pulp, R. S. Hatch—273(A); in uncoated paper, M. N. Davis—273(A)
 * Warmth and coolness of colors, S. M. Newhall—271(A)
 * X—Z planes in the 1931 ICI system of colorimetry, Elliot Q. Adams—657(A)


 * Color temperature
 * Experiment on Wien’s energy distribution law and optical pyrometry, Donald C. Stockbarger—224(O)


 * Diffraction
 * Molecular structure—electronic diffraction method, Louis R. Maxwell—265(T), 374; x-ray diffraction method, B. E. Warren—265(T), 369


 * Dispersion (see also Geometrical optics)
 * Dispersion of magnetic double refraction in the short infra-red spectrum, Francis J. Davis—488


 * Editorial comment
 * A message to the society, K. S. Gibson—1
 * An enlarged journal of extended scope—507
 * Cooperation among color experts—573
 * Dr. Richtmyer—41
 * Opportunities for research—367
 * Optical contributions to national defense—321
 * Optics for skeptics—461
 * Quarter-century celebration—183
 * Research and publication—229
 * The new optics, Thanks where due—141
 * “Time to stump the experts’ —275


 * Electron optics
 * Molecular structure—electronic diffraction method, Louis R. Maxwell—265(T), 374


 * Emissivity
 * Total emissivity of various materials, B. T. Barnes, E. Q. Adams, and W. E. Forsythe—269(A)
 * Total hemispherical emissivities by a parallel plate method, A. G. Worthing—91(A)


 * Eye
 * Comparative anatomical studies of the eye with especial reference to the photoreceptors, S. R. Detweiler—42, 90(T)
 * Note on the measurement of pupillary diameters, Robert C. Herman—316(R)
 * Size of pupil as a variable factor in measurements of the threshold. An experimental study of the Stiles-Crawford phenomenon, Louise L. Sloan—271(A)
 * Spectral sensibility of the long-eared owl, Maurice Henri Pirenne and Selig Hecht—270(A)


 * Films
 * Investigation of thin evaporated silver films on glass, John Strong and Barry Dibble—431
 * Optical properties of semitransparent sputtered films determined by interference of light, J. B. Nathanson and C. L. Bartberger—92(A)


 * Glass
 * Chemical methods for increasing the transparency of glass surfaces, Frank L. Jones and Howard J. Homer—654(A)
 * Density of silicate glasses as a function of composition, Maurice L. Huggins—420
 * Refractive index of silicate glasses as a function of composition, Maurice L. Huggins—495


 * Illumination
 * Approximate spectral energy distribution of skylight, K. S. Gibson—88(A)
 * Illumination from extended sources computed by the theory of the integrating sphere, Frank Benford—33
 * Spectral distribution of energy in daylight, A. H. Taylor and G. P. Kerr—88(A)
 * Submarine illumination in photometric units, C. L. Utterback and R. E. Wilson—136
 * Use of Ulbricht sphere theory in the computation of illumination, Frank Benford—89(A)


 * Interferometers
 * Fabry-Perot interferometers in a parallel arrangement, L. Sturkey—351
 * Hyperfine structure deviations in Sb$121$ and Sb$123$, D. H. Tomboulian and R. F. Bacher—92(A)
 * Interference phenomena with a moving medium, Herbert E. Ives and G. R. Stilwell—653(A)
 * Interferometer method of plane stress analysis, David Sinclair—511
 * Optical properties of the grating interferometer, J. H. Schroeder and B. P. Ramsay—355


 * Lenses and mirrors
 * Automatic telescope control, Arthur C. Hardy—654(A)
 * Changes in lens characteristics with temperature, A. Francis Turner—654(A)
 * Chemical methods for increasing the transparency of glass surfaces, Frank L. Jones and H. J. Homer—654(A)
 * Laminated sun glass lenses—331
 * Method for the measurement of flatness of polished surfaces, Clifton Tuttle and Randle Cartwright—348
 * Modification of the Hindle test for cassegrain secondaries, Wilbur Silvertooth—140(R)
 * New type of wide aperture ratio telescope objective, A. E. Glancy—572(L)
 * Nomogram on the Huygens ocular, C. Harrison Dwight—140(R)
 * Simple method for determining chromatic aberration for photomicrographic purposes, Walter Koch—564
 * Treatment of camera lenses with low reflecting films, C. Hawley Cartwright—110
 * Variable focus lens and its uses, Robert Graham—560