Minimum weight analysis based on structural reliability.

[1]  H. Switzky,et al.  Minimum weight design with structural reliability , 1965 .

[2]  M. McCormick,et al.  LASER BACKSCATTER CORRELATION WITH TURBULENT REGIONS OF THE ATMOSPHERE , 1968 .

[3]  R. Hufnagel,et al.  Modulation Transfer Function Associated with Image Transmission through Turbulent Media , 1964 .

[4]  J. W. Foreman,et al.  Laser Doppler velocimeter for measurement of localized flow velocities in liquids , 1966 .

[5]  Ralph E. Blake,et al.  Predicting structural reliability for design decisions. , 1967 .

[6]  R. J. Munick Turbulent Backscatter of Light , 1965 .

[7]  D. L. Fried,et al.  Optical heterodyne detection of an atmospherically distorted signal wave front , 1967 .

[8]  J. Cooney,et al.  MEASUREMENTS ON THE RAMAN COMPONENT OF LASER ATMOSPHERIC BACKSCATTER , 1968 .

[9]  B. Edĺen,et al.  The Dispersion of Standard Air , 1953 .

[10]  R. Penndorf,et al.  Tables of the Refractive Index for Standard Air and the Rayleigh Scattering Coefficient for the Spectral Region between 0.2 and 20.0 μ and Their Application to Atmospheric Optics , 1957 .

[11]  K. Brueckner,et al.  Linearized Theory of Laser-Induced Instabilities in Liquids and Gases , 1967 .

[12]  Harry H. Hilton,et al.  Minimum Weight Analysis Based on Structural Reliability , 1960 .

[13]  G. Kent,et al.  Laser Probing the Lower Atmosphere , 1966 .

[14]  Y. Yeh,et al.  Localized fluid flow measurements with an He-Ne laser spectrometer , 1964 .

[15]  G. Fiocco,et al.  Detection of Scattering Layers in the Upper Atmosphere (60–140 km) by Optical Radar , 1963, Nature.