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Main Authors: Youngblood, Allison, France, Kevin, Koskinen, Tommi, Mason, James Paul, Redfield, Seth, Wood, Brian E., Bourrier, Vincent, Santos, Leonardo dos, Johns-Krull, Christopher, King, George W., Linsky, Jeffrey L., Peacock, Sarah
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.08125
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author Youngblood, Allison
France, Kevin
Koskinen, Tommi
Mason, James Paul
Redfield, Seth
Wood, Brian E.
Bourrier, Vincent
Santos, Leonardo dos
Johns-Krull, Christopher
King, George W.
Linsky, Jeffrey L.
Peacock, Sarah
author_facet Youngblood, Allison
France, Kevin
Koskinen, Tommi
Mason, James Paul
Redfield, Seth
Wood, Brian E.
Bourrier, Vincent
Santos, Leonardo dos
Johns-Krull, Christopher
King, George W.
Linsky, Jeffrey L.
Peacock, Sarah
contents Obtaining a complete census of gas in the local interstellar medium (<100 pc) is challenging given the limited available tracers of the warm, partially-ionized medium. Medium-to-high resolution UV absorption spectroscopy toward individual nearby stars is the primary method used, and incomplete spatial sampling of this complex medium makes a global map of the material difficult. Using H I column density measurements derived from H I Lyman alpha spectroscopy toward 164 stars inside 100 pc, we have generated 2D spatially-interpolated N(HI) maps for different distance shells. Based on the area-weighted sky averages, we find that sightlines inside 10 pc typically have log N(HI) ~ 17.9. For greater distance shells, log N(HI) increases to 18.3 (10-20 pc), then to 18.4 (20-70 pc), and finally increasing to 18.6 (70-100 pc). This last increase is likely associated with the detection of the Local Bubble boundary, thus making the plateau of column density from 20-70 pc notable and suggestive of the rarity of warm LISM material beyond ~10-20 pc. We estimate that the uncertainties associated with N(HI) values inferred from the interpolated sky maps are approximately inversely correlated with the number of samples in each distance shell and are in the range of 0.20-0.48 dex, compared to 0.01-0.30 dex typically determined from direct Lyman alpha observations. We discuss the impact of these uncertainties on ISM corrections of EUV and Lyman alpha observations for nearby stars. Denser spatial sampling of the sky via UV absorption spectroscopy of nearby stars is required to improve the accuracy of these N(HI) estimates.
format Preprint
id arxiv_https___arxiv_org_abs_2509_08125
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Toward a 2D H I Map of the Local Interstellar Medium
Youngblood, Allison
France, Kevin
Koskinen, Tommi
Mason, James Paul
Redfield, Seth
Wood, Brian E.
Bourrier, Vincent
Santos, Leonardo dos
Johns-Krull, Christopher
King, George W.
Linsky, Jeffrey L.
Peacock, Sarah
Solar and Stellar Astrophysics
Astrophysics of Galaxies
Obtaining a complete census of gas in the local interstellar medium (<100 pc) is challenging given the limited available tracers of the warm, partially-ionized medium. Medium-to-high resolution UV absorption spectroscopy toward individual nearby stars is the primary method used, and incomplete spatial sampling of this complex medium makes a global map of the material difficult. Using H I column density measurements derived from H I Lyman alpha spectroscopy toward 164 stars inside 100 pc, we have generated 2D spatially-interpolated N(HI) maps for different distance shells. Based on the area-weighted sky averages, we find that sightlines inside 10 pc typically have log N(HI) ~ 17.9. For greater distance shells, log N(HI) increases to 18.3 (10-20 pc), then to 18.4 (20-70 pc), and finally increasing to 18.6 (70-100 pc). This last increase is likely associated with the detection of the Local Bubble boundary, thus making the plateau of column density from 20-70 pc notable and suggestive of the rarity of warm LISM material beyond ~10-20 pc. We estimate that the uncertainties associated with N(HI) values inferred from the interpolated sky maps are approximately inversely correlated with the number of samples in each distance shell and are in the range of 0.20-0.48 dex, compared to 0.01-0.30 dex typically determined from direct Lyman alpha observations. We discuss the impact of these uncertainties on ISM corrections of EUV and Lyman alpha observations for nearby stars. Denser spatial sampling of the sky via UV absorption spectroscopy of nearby stars is required to improve the accuracy of these N(HI) estimates.
title Toward a 2D H I Map of the Local Interstellar Medium
topic Solar and Stellar Astrophysics
Astrophysics of Galaxies
url https://arxiv.org/abs/2509.08125