Detection of the Galactic Warm Neutral Medium in HI 21cm absorption

TL;DR

This study detects and analyzes the warm neutral medium in our galaxy using HI 21cm absorption, revealing high spin temperatures and providing insights into the physical state of interstellar hydrogen.

Contribution

First detection of wide, weak HI 21cm absorption towards a quasar, revealing properties of the Galactic warm neutral medium with detailed temperature estimates.

Findings

Detected wide, weak HI 21cm absorption with high optical depth.

Measured a high harmonic mean spin temperature of approximately 3760 K.

Estimated gas kinetic temperature around 4910 K, indicating the presence of warm neutral medium.

Abstract

We report a deep Giant Metrewave Radio Telescope (GMRT) search for Galactic H{\sc i} 21cm absorption towards the quasar B0438$-$436, yielding the detection of wide, weak H{\sc i} 21cm absorption, with a velocity-integrated H{\sc i} 21cm optical depth of $0.0188 \pm 0.0036$~km~s$^{-1}$. Comparing this with the H{\sc i} column density measured in the Parkes Galactic All-Sky Survey gives a column density-weighted harmonic mean spin temperature of $3760 \pm 365$~K, one of the highest measured in the Galaxy. This is consistent with most of the H{\sc i} along the sightline arising in the stable warm neutral medium (WNM). The low peak H{\sc i} 21cm optical depth towards B0438$-$436 implies negligible self-absorption, allowing a multi-Gaussian joint decomposition of the H{\sc i} 21cm absorption and emission spectra. This yields a gas kinetic temperature of $\rm T_k \leq (4910 \pm 1900)$~K, and a spin temperature of $\rm T_s = (1000 \pm 345)$~K for the gas that gives rise to the H{\sc i} 21cm absorption. Our data are consistent with the H{\sc i} 21cm absorption arising from either the stable WNM, with $\rm T_s \ll T_k$, $\rm T_k \approx 5000$~K, and little penetration of the background Lyman-$\alpha$ radiation field into the neutral hydrogen, or from the unstable neutral medium, with $\rm T_s \approx T_k \approx 1000\;K$.