Absorption line studies of reflection from horizontally inhomogeneous layers

A discussion of literature relevant to horizontal inhomogeneities in planetary atmospheres shows this to be an increasingly important yet largely unexplored topic. Section II details an inhomogeneous reflecting layer (IRFL) model designed to survey absorption line behavior from a Squires-like cloud cover (which is characterized by convection cell structure). Computational problems and procedures are discussed in detail, with results presented for center to limb equivalent width variations at phase angles α = 0° and 90°, followed by equivalent width variations as a function of phase angle for specific points across the planetary equator. We examine a range of cloud and gas configurations, of line and continuum opacities, and we compare phase variations of bright versus dark limbs. The results in general show trends quite dissimilar to (usually opposite) those predicted by a simple reflecting layer model. Percent equivalent width variations for the tower model are usually somewhat greater for weak than for relatively strong absorption lines, with differences of a factor of about two or three. Also, IRFL equivalent width variations do not differ drastically as a function of geometry when the total volume of absorbing gas is held constant. The IRFL results are in many instances consistent with observed equivalent width variations of Jupiter, Saturn, and Venus. Thus, consideration of horizontal inhomogeneities evidently worsens current uniqueness problems. Future more detailed observations will ameliorate this impass if, it is argued, interpretive studies encompass the complexities of realistic horizontal cloud structure.