The opposition effect in Saturn rings seen by Cassini/ISS: 1. Morphology of phase curves

TL;DR

This study analyzes the opposition effect in Saturn's rings using Cassini data, characterizing phase curve morphology across wavelengths and linking it to ring optical depth and grain size effects.

Contribution

It provides a detailed morphological analysis of Saturn ring phase curves, introducing a simple parametrization and revealing how optical depth influences the opposition effect.

Findings

Phase function shape is well modeled by a logarithmic function.

Morphological parameters correlate with ring optical depth.

Wavelength variations indicate grain size effects are significant.

Abstract

The Cassini cameras have captured the opposition effect in Saturn rings with a high radial resolution at phase angles down to 0.01o in the entire main ring system. We derive phase functions from 0.01 to 25 degrees of phase angle in the Wide-Angle Camera clear filters with a central wavelength of 0.611microns and phase functions from 0.001 to 25 degrees of phase angle in the Narrow-Angle and Wide-Angle Cameras color filters (from the blue 0.451 microns to the near infrared 0.752 microns). We characterize the morphology of the phase functions of different features in the main rings. We find that the shape of the phase function is accurately represented by a logarithmic model (Bobrov 1970, in Surfaces and Interiors of Planets and Satellites, Academic, edited by A. Dollfus). For practical purposes, we also parametrize the phase curves by a simple linear-by-part model (Lumme and Irvine 1976, Astronomical Journal, 81, p865), which provides three morphological parameters : the amplitude and the Half-Width at Half-Maximum (HWHM) of the surge, and the slope S of the linear-part of the phase function at larger phase angles. Our analysis demonstrates that all of these parameters show trends with the optical depth of the rings. These trends imply that the optical depth is a key-element determining the physical properties which act on the opposition effect. Wavelength variations of the morphological parameters of the surge show important trends with the optical depth in the green filter (0.568 microns), which implies that grain size effects are maximum in this wavelength.