# Small Bodies Science with Twinkle

**Authors:** Billy Edwards, Sean Lindsay, Giorgio Savini, Giovanna Tinetti, Claudio, Arena, Neil Bowles, Marcell Tessenyi

arXiv: 1903.09840 · 2019-09-20

## TL;DR

Twinkle, a space telescope with visible and near-infrared spectrometers, can observe and characterize thousands of small bodies like asteroids and comets over a decade, advancing Solar System research.

## Contribution

This paper demonstrates Twinkle's potential for small bodies science, highlighting its capability to observe numerous asteroids and comets with high signal-to-noise ratio.

## Key findings

- Thousands of asteroids will be observable over a decade.
- Hundreds of comets can be observed with Twinkle.
- Twinkle can characterize small bodies at native resolution.

## Abstract

Twinkle is an upcoming 0.45m space-based telescope equipped with a visible and two near-infrared spectrometers covering the spectral range 0.4 to 4.5{\mu}m with a resolving power R~250 ({\lambda}<2.42{\mu}m) and R~60 ({\lambda}>2.42{\mu}m). We explore Twinkle's capabilities for small bodies science and find that, given Twinkle's sensitivity, pointing stability, and spectral range, the mission can observe a large number of small bodies. The sensitivity of Twinkle is calculated and compared to the flux from an object of a given visible magnitude. The number, and brightness, of asteroids and comets that enter Twinkle's field of regard is studied over three time periods of up to a decade. We find that, over a decade, several thousand asteroids enter Twinkle's field of regard with a brightness and non-sidereal rate that will allow Twinkle to characterise them at the instrumentation's native resolution with SNR > 100. Hundreds of comets can also be observed. Therefore, Twinkle offers researchers the opportunity to contribute significantly to the field of Solar System small bodies research.

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Source: https://tomesphere.com/paper/1903.09840