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Spectral energy distribution -- Mathematical models

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• Spectral energy distribution
• Radiation -- Mathematical models
• Spectrum analysis -- Mathematical models
• Mathematical models

• Molecular vibration spectra from field emission energy distributions (National Aeronautics and Space Administration ;, 1969), by Dennis J. Flood and Lewis Research Center (page images at HathiTrust)
• Diffraction of directional wave spectra around a semi-infinite breakwater (U.S. Army Engineer Waterways Experiment Station ;, 1992), by Matthew T. Walsh, U.S. Army Engineer Waterways Experiment Station, United States Army Corps of Engineers, and Coastal Engineering Research Center (U.S.) (page images at HathiTrust)

Items below (if any) are from related and broader terms.

• Storm evolution of directional seas in shallow water (U.S. Army Engineer Waterways Experiment Station, 1994), by Charles E. Long, U.S. Army Engineer Waterways Experiment Station, Coastal Engineering Research Center (U.S.), and United States Army Corps of Engineers (page images at HathiTrust)
• Characterization of frequency stability (U.S. National Bureau of Standards :, 1970), by IEEE Group on Instrumentation & Measurement. Technical Committee on Frequency and Time. Subcommittee on Frequency and Time and J. A. Barnes (page images at HathiTrust)
• Frequency stability specification and measurement : high frequency and microwave signals (U.S. National Bureau of Standards :, 1973), by J H. Shoaf, A. S. Risley, and D. Halford (page images at HathiTrust)
• Energy distribution of ions and electrons in DCX after burnout : Oracle code EDDIE (Oak Ridge National Laboratory, 1961), by Thomas Kenneth Fowler, M. Rankin, U.S. Atomic Energy Commission, and Oak Ridge National Laboratory. Thermonuclear Division (page images at HathiTrust)
• Energy-mass distributions and angular momentum effects in heavy-ion-induced fission (University of California Radiation Laboratory, 1963), by Franz Plasil and Lawrence Radiation Laboratory (page images at HathiTrust)
• Mechanism of hyperfragment formation in K ⁻ capture (University of California Lawrence Radiation Laboratory, 1964), by J. W. Patrick, P. L. Jain, and Lawrence Radiation Laboratory (page images at HathiTrust)
• The space, time, and energy distributions of the proton beam of the Harvard University Synchrocyclotron (Oak Ridge National Laboratory, 1965), by R. T. Santoro and U.S. Atomic Energy Commission (page images at HathiTrust)
• Neutron flux spectra in the experimental facilities of the Oak Ridge Research Reactor (Oak Ridge National Laboratory, 1965), by C. D. Baumann and U.S. Atomic Energy Commission (page images at HathiTrust)
• Measurement of the intensity of the proton beam of the Harvard University Synchrocyclotron for energy-spectral measurements of nuclear secondaries (Oak Ridge National Laboratory, 1964), by R. T. Santoro, R. W. Peelle, U.S. Atomic Energy Commission, Union Carbide Corporation, and Oak Ridge National Laboratory. Neutron Physics Division (page images at HathiTrust)
• Methods for computing and intercomparing radiation data (U.S. Dept. of Commerce, Bureau of Standards :, 1920), by William W. Coblentz and United States. National Bureau of Standards (page images at HathiTrust)
• Radiometric measurements on the carbon arc and other light sources used in phototherapy (U.S. Dept. of Commerce, Bureau of Standards :, 1926), by William W. Coblentz, Charles Wesley Hughes, M. J. Dorcas, and United States. National Bureau of Standards (page images at HathiTrust)
• Experimental investigation of the spectral emission characteristics of argon-tungsten and argon-uranium induction heated plasmas (National Aeronautics and Space Administration ;, 1969), by Pierre J. Marteney, N. L. Krascella, Arthur E. Mensing, United Aircraft Corporation, and United States National Aeronautics and Space Administration (page images at HathiTrust)
• Distributed system response characteristics in random pressure fields (National Aeronautics and Space Administration ;, 1970), by Richard L. Barnoski, John R. Maurer, Goddard Space Flight Center, and Measurement Analysis Corporation (page images at HathiTrust)
• NASA TN D-4157 (National Aeronautics and Space Administration ;, 1967), by Thomas M. Klucher, United States National Aeronautics and Space Administration, and Lewis Research Center (page images at HathiTrust)
• Performance of 10-kilowatt carbon arc solar radiation simulator (National Aeronautics and Space Administration, 1967), by Gary C. Goldman, Kenneth Yass, and Langley Research Center (page images at HathiTrust)
• Neutron energy distribution of water boiler fast neutron beam from 0.5 to 6 Mev (U.S. Atomic Energy Commission, Technical Information Service, 1950), by Norris Nereson, Jewell Erickson, Julia Carlson, Los Alamos Scientific Laboratory, and U.S. Atomic Energy Commission (page images at HathiTrust)
• Directional spectral performance characteristics (Vicksburg, Mississippi : U.S. Army Engineer Waterways Experiment Station ; [Springfield, Virginia] : [Available from National Technical Information Service], 1989., 1989), by Michael Jeffrey Briggs, Robert E. Jensen, Peter J. Grace, U.S. Army Engineer Waterways Experiment Station, Coastal Engineering Research Center (U.S.), and United States Army Corps of Engineers (page images at HathiTrust)
• Direct computation of power density and energy density spectra (Naval Research Laboratory, 1971), by William B. Moseley (page images at HathiTrust; US access only)
• Total energy and energy spectral density of elastic wave radiation from propagating faultsl (L.G. Hanscom Field, Bedford, Massachusetts : Air Force Cambridge Research Laboratories, Office of Aerospace Research, United States Air Force, 1965., 1965), by N. A. Haskell and Air Force Cambridge Research Laboratories (U.S.) (page images at HathiTrust)
• Total energy and energy spectral density of elastic wave radiation from propagating faults : Part II. A Statistical source model (L.G. Hanscom Field, Bedford, Massachusetts : Air Force Cambridge Research Laboratories, Office of Aerospace Research, United States Air Force, 1966., 1966), by N. A. Haskell and Air Force Cambridge Research Laboratories (U.S.) (page images at HathiTrust)
• Estimates of spectral energy density applied to vertical profiles of the horizontal wind in the lower ionosphere (L.G. Hanscom Field, Bedford, Massachusetts : Air Force Cambridge Research Laboratories, Office of Aerospace Research, United States Air Force, 1967., 1967), by Thomas M. Noel and Air Force Cambridge Research Laboratories (U.S.) (page images at HathiTrust)
• A method of shaping thermal energy pulses from a carbon arc source (Rochester, New York. : University of Rochester, Atomic Energy Project, 1955., 1955), by George Mixter, Thomas P. Davis, University of Rochester. Atomic Energy Project, and U.S. Atomic Energy Commission (page images at HathiTrust)
• Effects of spectral distribution of radiant energy on cutaneous burn production in man and the rat (San Francisco, California : U.S. Naval Radiological Defense Laboratory, 1955., 1955), by Edward L. Alpen, A. K. Davis, S. B. Martin, C. P. Butler, and U.S. Naval Radiological Defense Laboratory (page images at HathiTrust)
• Spectral energy distribution in x-ray beam as a function of wavelength (Los Angeles, California : The University of California at Los Angeles, Atomic Energy Project, 1951., 1951), by M. A. Greenfield, Katherine Hand, P.M. Kratz, R. D. Specht, Los Angeles University of California, and U.S. Atomic Energy Commission (page images at HathiTrust)
• ATS-6 NOAA solid state proton experiment : mean energy of a finite energy passband (Dept. of Commerce, National Oceanic and Atmospheric Administration, Environmental Research Laboratories, Space Environment Laboratory, 1976), by John A. McKinnon, Theodore A. Fritz, Environmental Research Laboratories (U.S.), and Space Environment Laboratory (page images at HathiTrust)
• Direct numerical simulation of compressible turbulent flows using adaptive spectral element method (Huntsville, Alabama : University of Alabama at Huntsville, Department of Mechanical Engineering, 1994., 1994), by T. J. Chung, K. T. Yoon, University of Alabama in Huntsville, and United States. Air Force. Office of Scientific Research (page images at HathiTrust)

• Simbat theoretical manual (Naval Civil Engineering Laboratory, 1993), by Leon E. Borgman, David R. Shields, Warren A. Bartel, Calif.) Naval Civil Engineering Laboratory (Port Hueneme, and United States. Naval Facilities Engineering Command (page images at HathiTrust)

• NASA TN D-4156 (National Aeronautics and Space Administration ;, 1967), by Anthony F. Ratajczak, United States National Aeronautics and Space Administration, and Lewis Research Center (page images at HathiTrust)

• Effect of error in spectral measurements of solar simulators on surface response (National Aeronautics and Space Administration, 1970), by Henry B. Curtis, United States National Aeronautics and Space Administration, and Lewis Research Center (page images at HathiTrust)

• Methods for computing confidence intervals for spectral estimates in monthly reports of the California Coastal Data Information Program (Dept. of the Army, Waterways Experiment Station, Corps of Engineers ;, 1985), by Michael E. Andrew, Leon E. Borgman, United States. Army. Corps of Engineers. South Pacific Division, and U.S. Army Engineer Waterways Experiment Station (page images at HathiTrust)

• Flux monitoring for radiation damage studies (U.S. Atomic Energy Commission, 1960), by H. H. Yoshikawa, United States. National Bureau of Standards, United States. Department of Energy. Office of Fusion Energy, United States. National Bureau of Standards. Fracture and Deformation Division, U.S. Atomic Energy Commission, United States. Energy Research and Development Administration, Hanford Works, and Hanford Atomic Products Operation. Reactor and Fuels Research and Development Operation (page images at HathiTrust)
• Triple correlations (Oak Ridge National Laboratory, 1958), by M. E. Rose, U.S. Atomic Energy Commission, Union Carbide Corporation, and Oak Ridge National Laboratory. Physics Division (page images at HathiTrust)
• Radiation transmission through boral and similar heterogenous materials consisting of randomly distributed absorbing chunks (Oak Ridge National Laboratory, 1960), by W. R. Burrus, U.S. Atomic Energy Commission, Union Carbide Corporation, and Oak Ridge National Laboratory. Neutron Physics Division (page images at HathiTrust)
• Radiation flux transformation as a function of density of an infinite medium with anisotropic point sources (Oak Ridge National Laboratory, 1956), by C. D. Zerby, U.S. Atomic Energy Commission, Union Carbide Nuclear Company, and Oak Ridge National Laboratory. Applied Nuclear Physics Division (page images at HathiTrust)
• Tables of solid angles and activations. [Part] I., Solid angle subtended by a circular disc. [Part] II., Solid angle subtended by a cylinder. [Part] III., Activation of a cylinder by a point source (Oak Ridge National Laboratory, 1956), by Albert Victor Hugo Masket, H. W. Schmitt, R. L. Macklin, Union Carbide Nuclear Company, Oak Ridge National Laboratory, and U.S. Atomic Energy Commission (page images at HathiTrust)
• Radiation fluxes in a cylindrical cavity resulting from an idealized entering current (Oak Ridge National Laboratory, 1957), by C. D. Zerby, U.S. Atomic Energy Commission, Union Carbide Nuclear Company, and Oak Ridge National Laboratory. Applied Nuclear Physics Division (page images at HathiTrust)
• Calculation of the constants of Planck's radiation equation : an extension of the theory of least squares (U.S. Dept. of Commerce, Bureau of Standards :, 1918), by Harry Mance Roeser and United States. National Bureau of Standards (page images at HathiTrust)
• A mathematical model of the evolution of radiation fog (L.G. Hanscom FIeld, Bedford, Massachusetts : Air Force Cambridge Research Laboratories, Air Force Systems Command, United States Air Force, 1972., 1972), by I. M. Zakharova and Air Force Cambridge Research Laboratories (U.S.) (page images at HathiTrust)
• On the Generalized radiation problem of Weinstein ([Washington, D.C.] : [United States Air Force, Office of Scientific Research], 1958., 1958), by J.-L. Lions, United States. Air Force. Office of Scientific Research, and College Park. Institute for Fluid Dynamics and Applied Mathematics University of Maryland (page images at HathiTrust)

• Physics Division. (Oak Ridge National Laboratory, 1956), by M. E. Rose, Union Carbide Nuclear Company, and Oak Ridge National Laboratory (page images at HathiTrust)

• Synchrotron radiation calculations for the artificial radiation belt (National Aeronautics and Space Administration :, 1964), by Minoru Paul Nakada and Goddard Space Flight Center (page images at HathiTrust)

• A study of stratospheric emitters based on infrared radiometersonde measurements. (1970), by Serhij Pilipowskyj (page images at HathiTrust; US access only)
• Methods in Monte Carlo solution of the radiation transport equation (U. S. Army Chemical Corps, Nuclear Defense Laboratory, Army Chemical Center, 1962), by Malvin H. Kalos, United States. Army Nuclear Defense Laboratory, and United Nuclear Corporation. Development Division (page images at HathiTrust)
• Tropospheric heating and cooling for selected days and locations over the United States during winter 1960 and spring 1962 (U.S. Dept. of Commerce, Environmental Science Services Administration, Weather Bureau, National Meteorological Center, 1965), by Philip F. Clapp, Francis Joseph Winninghoff, and National Meteorological Center (U.S.) (page images at HathiTrust)
• On the direct solution of the governing equation for radiation-resisted shock waves (National Aeronautics and Space Administration :, 1964), by Walter E. Pearson and Ames Research Center (page images at HathiTrust)
• Radiative transfer with scattering (Los Alamos Scientific Laboratory of the University of California, 1968), by G. C. Pomraning, Los Alamos Scientific Laboratory, and U.S. Atomic Energy Commission (page images at HathiTrust)
• On the computation of the transport of radiation (Los Alamos Scientific Laboratory of the University of California, 1963), by Burton Wendroff, Los Alamos Scientific Laboratory, and U.S. Atomic Energy Commission (page images at HathiTrust)
• An equation for rapid calculation of stagnation point radiative heat transfer : including shock layer radiative cooling and nongray self-absorption (White Oak, Maryland : United States Naval Ordnance Laboratory, 1968., 1968), by John D. Anderson and Md.) Naval Ordnance Laboratory (White Oak (page images at HathiTrust)
• Radiative transfer effects in cepheid atmospheres (Los Alamos, New Mexico : Los Alamos Scientific Laboratory of the University of California, 1968., 1968), by C. G. Jr Davis, J. Bendt, Los Alamos Scientific Laboratory, and U.S. Atomic Energy Commission (page images at HathiTrust)

More items available under broader and related terms at left.