# Weather on Other Worlds. IV. H$\alpha$ emission and photometric   variability are not correlated in L0$-$T8 dwarfs

**Authors:** P. A. Miles-P\'aez, S. A. Metchev, A. Heinze, D. Apai

arXiv: 1704.06940 · 2017-05-24

## TL;DR

This study investigates the relationship between magnetic activity and photometric variability in ultra-cool dwarfs, finding no correlation and suggesting dust clouds drive variability rather than magnetic phenomena.

## Contribution

It provides the first extensive analysis showing that Hα emission and photometric variability are uncorrelated in L and T dwarfs, emphasizing dust clouds as the primary cause of variability.

## Key findings

- Hα emission is common in early L dwarfs but rare in later types.
- Photometric variability occurs across all L and T spectral types with no clear correlation to Hα emission.
- Dust clouds are likely the main cause of variability, not magnetic activity.

## Abstract

Recent photometric studies have revealed that surface spots that produce flux variations are present on virtually all L and T dwarfs. Their likely magnetic or dusty nature has been a much-debated problem, the resolution to which has been hindered by paucity of diagnostic multi-wavelength observations. To test for a correlation between magnetic activity and photometric variability, we searched for H$\alpha$ emission among eight L3$-$T2 ultra-cool dwarfs with extensive previous photometric monitoring, some of which are known to be variable at 3.6 $\mu$m or 4.5 $\mu$m. We detected H$\alpha$ only in the non-variable T2 dwarf 2MASS J12545393$-$0122474. The remaining seven objects do not show H$\alpha$ emission, even though six of them are known to vary photometrically. Combining our results with those for 86 other L and T dwarfs from the literature show that the detection rate of H$\alpha$ emission is very high (94$\%$) for spectral types between L0 and L3.5 and much smaller (20$\%$) for spectral types $\ge$L4, while the detection rate of photometric variability is approximately constant (30$\%-$55$\%$) from L0 to T8 dwarfs. We conclude that chromospheric activity, as evidenced by H$\alpha$ emission, and large-amplitude photometric variability are not correlated. Consequently, dust clouds are the dominant driver of the observed variability of ultra-cool dwarfs at spectral types at least as early as L0.

## Full text

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## Figures

15 figures with captions in the complete paper: https://tomesphere.com/paper/1704.06940/full.md

## References

104 references — full list in the complete paper: https://tomesphere.com/paper/1704.06940/full.md

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Source: https://tomesphere.com/paper/1704.06940