Multiple and Precessing Collimated Outflows in the Planetary Nebula IC 4634

TL;DR

This study reveals complex, precessing collimated outflows and multiple structural components in the planetary nebula IC 4634, using imaging, spectroscopy, and numerical simulations to understand its morphology and kinematics.

Contribution

It provides the first detailed analysis of multiple precessing collimated outflows and their role in shaping IC 4634, supported by 3D simulations and comprehensive observational data.

Findings

Identification of new structural components including knots and shells

Evidence of multiple episodes of point-symmetric ejections

Consistent interpretation of bow shock features with precessing outflows

Abstract

With its remarkable double-S shape, IC 4634 is an archetype of point-symmetric planetary nebulae (PN). In this paper, we present a detailed study of this PN using archival HST WFPC2 and ground-based narrow-band images to investigate its morphology, and long-slit spectroscopic observations to determine its kinematics and to derive its physical conditions and excitation. The data reveal new structural components, including a distant string of knots distributed along an arc-like feature 40"-60" from the center of the nebula, a skin of enhanced [O III]/H-alpha ratio enveloping the inner shell and the double-S feature, and a triple-shell structure. The spatio-kinematical study also finds an equatorial component of the main nebula that is kinematically independent from the bright inner S-shaped arc. We have investigated in detail the bow shock-like features in IC 4634 and found that their morphological, kinematical and emission properties are consistent with the interaction of a collimated outflow with surrounding material. Indeed, the morphology and kinematics of some of these features can be interpreted using a 3D numerical simulation of a collimated outflow precessing at a moderate, time-dependent velocity. Apparently, IC 4634 has experienced several episodes of point-symmetric ejections oriented at different directions with the outer S-shaped feature being related to an earlier point-symmetric ejection and the outermost arc-like string of knots being the relic of an even much earlier point-symmetric ejection. There is tantalizing evidence that the action of these collimated outflows has also taken part in the shaping of the innermost shell and inner S-shaped arc of IC 4634.