Photometric Observations of 107P/Wilson-Harrington

TL;DR

This study presents detailed photometric observations of 107P/Wilson-Harrington, revealing its complex rotation states, shape, pole orientation, and taxonomy, with implications for its physical nature and possible binary status.

Contribution

The paper provides the first comprehensive lightcurve analysis of 107P/Wilson-Harrington, proposing two models of its rotation and shape, and suggesting it may be a non-tumbling or binary object.

Findings

Identified a 0.2979-day rotation period.

Suggested two possible rotation models: tumbling and non-tumbling.

Indicated a C-type taxonomy with no clear surface color variations.

Abstract

We present lightcurve observations and multiband photometry for 107P/Wilson-Harrington using five small- and medium-sized telescopes. The lightcurve has shown a periodicity of 0.2979 day (7.15 hour) and 0.0993 day (2.38 hour), which has a commensurability of 3:1. The physical properties of the lightcurve indicate two models: (1) 107P/Wilson-Harrington is a tumbling object with a sidereal rotation period of 0.2979 day and a precession period of 0.0993 day. The shape has a long axis mode (LAM) of L1:L2:L3 = 1.0:1.0:1.6. The direction of the total rotational angular momentum is around {\lambda} = 310{\deg}, {\beta} = -10{\deg}, or {\lambda} = 132{\deg}, {\beta} = -17{\deg}. The nutation angle is approximately constant at 65{\deg}. (2) 107P/Wilson-Harrington is not a tumbler. The sidereal rotation period is 0.2979 day. The shape is nearly spherical but slightly hexagonal with a short axis mode (SAM) of L1:L2:L3 = 1.5:1.5:1.0. The pole orientation is around {\lambda} = 330{\deg}, {\beta} = -27{\deg}. In addition, the model includes the possibility of binary hosting. For both models, the sense of rotation is retrograde. Furthermore, multiband photometry indicates that the taxonomy class of 107P/Wilson-Harrington is C-type. No clear rotational color variations are confirmed on the surface.