Modeling of the Atmosphere: 7-8 April 1988, Orlando, FloridaLaurence S. Rothman |
Contents
2 Atmospheric modelinga meteorologists perspective | 2 |
387 | 25 |
Applications of High Power Lasers | 40 |
Copyright | |
8 other sections not shown
Common terms and phrases
absorbing absorption coefficient aerosol aerosol optical aerosol type AFGL albedo altitude analysis Appl applications approximation ATMOS atmospheric band boundary layer brightness temperatures C.P. Rinsland calculation cm resolution cm-¹ CO₂ collisions computed continuum absorption curve database density effects emission equation error experimental Figure forecast function gases GENLN2 Geophys high resolution HITRAN HNO3 image quality infrared intensity inversion isotopic laboratory levels line mixing line parameters line shape line wings line-by-line Lorentz measurements meteorological method mixed path molecular molecules Murcray Numerical Weather Prediction observed obtained optical depth optical turbulence ozone path characterization pressure problem Q branch radiance radiation radiative transfer radiosonde remote sensing retrieval rotational satellite scattering self-broadening sensor solar spatial frequency species spectra spectral region spectroscopic spectrum stratosphere surface temperature dependence thermal transition transmission transmittance troposphere values vertical vibrational Voigt Voigt profile water vapor wavelength WAVENUMBER Wavenumber cm-1 zenith angle