# H$_2$O MegaMaser emission in NGC 4258 indicative of a periodic disc   instability

**Authors:** Wiillem A. Baan, Tao AN, Christian Henkel, Hiroshi Imai, Vladimir, Kostenko, Andrej Sobolev

arXiv: 2302.14738 · 2023-03-01

## TL;DR

This study uses space VLBI to observe H$_2$O MegaMaser emission in NGC 4258, revealing periodic disc instabilities likely driven by magneto-rotational instability, which could indicate the mass-accretion rate in the galaxy's nucleus.

## Contribution

First high-resolution space VLBI observations of H$_2$O MegaMaser in NGC 4258 showing evidence of periodic disc instability linked to magneto-rotational instability.

## Key findings

- Detection of H$_2$O emission at 11 and 23 μas resolution.
- Regularly spaced emission regions within the disc.
- Temporal evolution consistent with periodic instability.

## Abstract

H$_2$O MegaMaser emission may arise from thin gas discs surrounding the massive nuclei of galaxies such as NGC\,4258, but the physical conditions responsible for the amplified emission are unclear. A detailed view of these regions is possible using the very high angular resolution afforded by space very long baseline interferometry (SVLBI). Here we report SVLBI experiments conducted using the orbiting RadioAstron Observatory that have resulted in detections of the H$_2$O 22 GHz emission in NGC\,4258, with Earth-space baselines of 1.3, 9.5 and 19.5 Earth diameters. Observations at the highest angular resolution of 11 and 23 $\mu$as show distinct and regularly spaced regions within the rotating disc, at an orbital radius of about 0.126 pc. These observations at three subsequent epochs also indicate a time evolution of the emission features, with a sudden rise in amplitude followed by a slow decay. The formation of the emission regions, their regular spacing and their time-dependent behaviour appear consistent with the occurrence of a periodic magneto-rotational instability in the disc. This type of shear-driven instability within the differentially rotating disc has been suggested to be the mechanism governing the radial momentum transfer and viscosity within a mass-accreting disc. The connection of the H$_2$O MegaMaser activity with the magneto-rotational instability activity would make it an indicator of the mass-accretion rate in the nuclear disc of the host galaxy.

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/2302.14738/full.md

## References

41 references — full list in the complete paper: https://tomesphere.com/paper/2302.14738/full.md

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Source: https://tomesphere.com/paper/2302.14738