# IRTF/TEXES Observations of the HII Regions H1 and H2 in the Galactic   Centre

**Authors:** Hui Dong, John H. Lacy, Rainer Schodel, Francisco Nogueras-Lara,, Teresa Gallego-Calvente, Jon Mauerhan, Q. Daniel Wang, Angela Cotera, Eulalia, Gallego-Cano

arXiv: 1706.03225 · 2017-07-26

## TL;DR

This study uses high-resolution [Ne II] observations to map the velocity and spatial structure of HII regions H1 and H2 in the Galactic Center, revealing their dynamics, extinction variations, and stellar content.

## Contribution

It provides detailed velocity maps and models for H1 and H2, confirming bow-shock and pressure-driven scenarios, and identifies a young stellar cluster in H2.

## Key findings

- Velocity distributions support bow-shock and pressure-driven models.
- Detection of a young stellar cluster in H2.
- Confirmation of the runaway star P114 in H1.

## Abstract

We present new [Ne II] (12.8 micron) IRTF/TEXES observations of the Galactic Center HII regions H1 and H2, which are at a projected distance of ~11 pc from the center of the Galaxy. The new observations allow to map the radial velocity distributions of ionized gas. The high spectroscopic resolution (~4 km/s) helps us to disentangle different velocity components and enables us to resolve previous ambiguity regarding the nature of these sources. The spatial distributions of the intensity and radial velocity of the [Ne II] line are mapped. In H1, the intensity distributions of the Paschen-\alpha (1.87 micron) and [Ne II] lines are significantly different, which suggests a strong variation of extinction across the HII region of A_K~0.56. The radial velocity distributions across these HII regions are consistent with the predictions of a bow-shock model for H1 and the pressure-driven model for H2. Furthermore, we find a concentration of bright stars in H2. These stars have similar H-K_s colors and can be explained as part of a 2 Myr old stellar cluster. H2 also falls on the orbit of the molecular clouds, suggested to be around Sgr A*. Our new results confirm what we had previously suggested: the O supergiant P114 in H1 is a runaway star, moving towards us through the -30-0 {km/s} molecular cloud, whereas the O If star P35 in H2 formed in-situ, and may mark the position of a so-far unknown small star cluster formed within the central 30 pc of the Galaxy.

## Full text

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## Figures

14 figures with captions in the complete paper: https://tomesphere.com/paper/1706.03225/full.md

## References

36 references — full list in the complete paper: https://tomesphere.com/paper/1706.03225/full.md

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Source: https://tomesphere.com/paper/1706.03225