# Comet P/2021 HS (PANSTARRS) and the Challenge of Detecting Low-Activity   Comets

**Authors:** Quanzhi Ye, Michael S. P. Kelley, James M. Bauer, Tony L. Farnham,, Dennis Bodewits, Luca Buzzi, Robert Weryk, Frank J. Masci, Michael S., Medford, Reed Riddle, Avery Wold

arXiv: 2303.00221 · 2023-03-02

## TL;DR

This study investigates the faint activity of comet P/2021 HS, revealing that its detection is due to forward scattering of a tiny coma, and discusses the implications for detecting low-activity comets.

## Contribution

The paper provides detailed analysis of a low-activity comet, demonstrating how forward scattering enhances its detectability and characterizing its physical properties and origin.

## Key findings

- Faint coma caused by forward scattering at high phase angle.
- Small active area (~700 m^2) drives sublimation activity.
- Minimal dust deposit along the orbit, indicating low activity.

## Abstract

Jupiter-family comet (JFC) P/2021 HS (PANSTARRS) only exhibits a coma within a few weeks of its perihelion passage at 0.8~au, which is atypical for a comet. Here we present an investigation into the underlying cause using serendipitous survey detections as well as targeted observations. We find that the detection of the activity is caused by an extremely faint coma being enhanced by forward scattering effect due to the comet reaching a phase angle of $\sim140^\circ$. The coma morphology is consistent with sustained, sublimation-driven activity produced by a small active area, $\sim700~\mathrm{m^2}$, one of the smallest values ever measured on a comet. The phase function of the nucleus shows a phase coefficient of $0.035\pm0.002~\mathrm{mag/deg}$, implying an absolute magnitude of $H=18.31\pm0.04$ and a phase slope of $G=-0.13$, with color consistent with typical JFC nuclei. Thermal observations suggest a nucleus diameter of 0.6--1.1~km, implying an optical albedo of 0.04--0.23 which is higher than typical cometary nuclei. An unsuccessful search for dust trail and meteor activity confirms minimal dust deposit along the orbit, totaling $\lesssim10^8$~kg. As P/2021 HS is dynamically unstable, similar to typical JFCs, we speculate that it has an origin in the trans-Neptunian region, and that its extreme depletion of volatiles is caused by a large number of previous passages to the inner Solar System. The dramatic discovery of the cometary nature of P/2021 HS highlights the challenges of detecting comets with extremely low activity levels. Observations at high phase angle where forward scattering is pronounced will help identify such comets.

## Full text

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## Figures

13 figures with captions in the complete paper: https://tomesphere.com/paper/2303.00221/full.md

## References

59 references — full list in the complete paper: https://tomesphere.com/paper/2303.00221/full.md

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Source: https://tomesphere.com/paper/2303.00221