# Surprisingly different starspot distributions on the near equal-mass   equal-rotation-rate stars in the M dwarf binary GJ 65 AB

**Authors:** J.R. Barnes, S.V. Jeffers, C.A. Haswell, H.R.A. Jones, D. Shulyak,, Ya.V. Pavlenko, J.S. Jenkins

arXiv: 1706.03979 · 2017-08-16

## TL;DR

This study uses Doppler imaging to compare starspot distributions on three similar M dwarf stars, revealing unexpected differences in spot placement despite similar rotation rates and stellar parameters.

## Contribution

It provides new high-resolution surface maps of three M dwarfs, highlighting unexpected variations in starspot distributions among stars with similar properties.

## Key findings

- GJ 65A and GJ 791.2A show high-latitude spots
- GJ 65B has extensive intermediate-latitude spots
- All stars exhibit small amplitude differential rotation

## Abstract

We aim to understand how stellar parameters such as mass and rotation impact the distribution of starspots on the stellar surface. To this purpose, we have used Doppler imaging to reconstruct the surface brightness distributions of three fully convective M dwarfs with similar rotation rates. We secured high cadence spectral time series observations of the 5.5 AU separation binary GJ 65, comprising GJ 65A (M5.5V, Prot = 0.24 d) and GJ 65B (M6V, Prot = 0.23 d). We also present new observations of GJ 791.2A (M4.5V, Prot = 0.31 d). Observations of each star were made on two nights with UVES, covering a wavelength range from 0.64 - 1.03 microns. The time series spectra reveal multiple line distortions, which we interpret as cool starspots and which are persistent on both nights suggesting stability on the timescale of 3 days. Spots are recovered with resolutions down to 8.3 degs at the equator. The global spot distributions for GJ 791.2A are similar to observations made a year earlier. Similar high latitude and circumpolar spot structure is seen on GJ791.2A and GJ 65A. However, they are surprisingly absent on GJ 65B, which instead reveals more extensive, larger, spots concentrated at intermediate latitudes. All three stars show small amplitude latitude-dependent rotation that is consistent with solid body rotation. We compare our measurements of differential rotation with previous Doppler imaging studies and discuss the results in the wider context of other observational estimates and recent theoretical predictions.

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/1706.03979/full.md

## References

76 references — full list in the complete paper: https://tomesphere.com/paper/1706.03979/full.md

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Source: https://tomesphere.com/paper/1706.03979