# Spectral and orbital survey of medium-sized meteoroids

**Authors:** Pavol Matlovi\v{c}, Juraj T\'oth, Regina Rudawska, Leonard Korno\v{s},, Adriana Pisar\v{c}\'ikov\'a

arXiv: 1908.01565 · 2019-09-11

## TL;DR

This study analyzes the spectra, material properties, and orbits of medium-sized meteoroids to understand their composition, heterogeneity, and differences across populations, revealing new spectral groups and compositional insights.

## Contribution

It provides the first comprehensive spectral and orbital survey of mm- to dm-sized meteoroids, identifying a new Fe-rich spectral group and analyzing compositional variations within meteoroid streams.

## Key findings

- Low ratio of pure iron meteoroids among studied bodies.
- Detection of a new spectral group of Fe-rich meteors.
- Heterogeneity within meteoroid streams and compositional links to parent comets.

## Abstract

We investigate the spectra, material properties, and orbital distribution of millimeter- to decimeter-sized meteoroids. Our study aims to distinguish the characteristics of populations of differently sized meteoroids and reveal the heterogeneity of identified meteoroid streams. We verify the surprisingly large ratio of pure iron meteoroids on asteroidal orbits detected among mm-sized bodies. Emission spectra and multi-station meteor trajectories were collected within the AMOS network observations. The sample is based on 202 meteors of -1 to -14 magnitude, corresponding to meteoroids of mm to dm sizes. Meteoroid composition is studied by relative intensity ratios of Na, Mg, and Fe. Heliocentric orbits, trajectory parameters, and material strengths inferred from empirical $K_B$ and $P_E$ parameters were determined for 146 meteoroids. An overall increase of Na content compared to the population of mm-sized meteoroids was detected, reflecting weaker effects of space weathering processes on larger meteoroids. We report a very low ratio of pure iron meteoroids and the discovery of a new spectral group of Fe-rich meteors. The majority of meteoroids on asteroidal orbits were found to be chondritic. Thermal processes causing Na depletion and physical processes resulting in Na-rich spectra are described and linked to characteristically increased material strengths. Numerous major and minor shower meteors were identified in our sample, revealing various degrees of heterogeneity within Halley-type, ecliptical, and sungrazing meteoroid streams. Our results imply a scattered composition of the fragments of comet 2P/Encke and 109P/Swift-Tuttle. The largest disparities were detected within the $\alpha$-Capricornids and $\delta$-Aquarids. We also find a spectral similarity between $\kappa$-Cygnids and Taurids, which could imply a similar composition of the parent objects of the two streams.

## Full text

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## Figures

51 figures with captions in the complete paper: https://tomesphere.com/paper/1908.01565/full.md

## References

61 references — full list in the complete paper: https://tomesphere.com/paper/1908.01565/full.md

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Source: https://tomesphere.com/paper/1908.01565