The 2011 October Draconids Outburst. II. Meteoroid Chemical Abundances from Fireball Spectroscopy

TL;DR

This study analyzes the chemical composition of October Draconid meteoroids through spectroscopic observations of fireballs, revealing heterogeneity in elemental abundances and providing insights into their cometary origins.

Contribution

It presents the first detailed spectroscopic analysis of a bright October Draconid fireball, highlighting chemical heterogeneity among meteoroids and comparing their elemental profiles.

Findings

Significant chemical heterogeneity among meteoroids.

Evolution of emission line intensities during atmospheric entry.

Comparison of elemental abundances with other observed fireballs.

Abstract

On October 8, 2011 the Earth crossed dust trails ejected from comet 21P/Giacobini-Zinner in the late 19th and early 20th Century. This gave rise to an outburst in the activity of the October Draconid meteor shower, and an international team was organized to analyze this event. The SPanish Meteor Network (SPMN) joined this initiative and recorded the October Draconids by means of low light level CCD cameras. In addition, spectroscopic observations were carried out. Tens of multi-station meteor trails were recorded, including an extraordinarily bright October Draconid fireball (absolute mag. -10.5) that was simultaneously imaged from three SPMN meteor ob-serving stations located in Andalusia. Its spectrum was obtained, showing a clear evolution in the relative intensity of emission lines as the fireball penetrated deeper into the atmosphere. Here we focus on the analysis of this remarkable spectrum, but also discuss the atmospheric trajectory, atmospheric penetration, and orbital data computed for this bolide which was probably released during 21P/Giacobini-Zinner return to perihelion in 1907. The spectrum is discussed together with the tensile strength for the October Draconid meteoroids. The chemical profile evolution of the main rocky elements for this extremely bright bolide is compared with the elemental abundances obtained for 5 October Draconid fireballs also recorded during our spectroscopic campaign but observed only at a single station. Significant chemical heterogeneity between the small meteoroids is found as we should expect for cometary aggregates being formed by diverse dust components.