The GALAH survey: Data release 4

Sven Buder; Janez Kos; Xi Ella Wang; Madeleine McKenzie; Madeleine Howell; Sarah Martell; Michael R. Hayden; Daniel B. Zucker; Thomas Nordlander; Benjamin Montet; Gregor Traven; Joss Bland-Hawthorn; Gayandhi M. De Silva; Kenneth Freeman; Geraint Lewis; Karin Lind; Sanjib Sharma; Jeffrey D. Simpson; Dennis Stello; Tomaz Zwitter; Anish M. Amarsi; Joseph J. Armstrong; Kirsten Banks; Mark Beavis; Kevin-Luke Beeson; Boquan Chen; Ioana Ciucacă; Gary S. Da Costa; Richard de Grijs; Bailey Martin; David Moise Nataf; Melissa Ness; Adam D. Rains; Tim Scarr; Rok Vogrinčič; Zixian Purmortal Wang; Rob A. Wittenmyer; Yi Anne Xie; The GALAH collaboration

doi:10.1017/pasa.2025.26

The GALAH survey: Data release 4

Sven Buder, Janez Kos, Xi Ella Wang, Madeleine McKenzie, Madeleine Howell, Sarah Martell, Michael R. Hayden, Daniel B. Zucker, Thomas Nordlander, Benjamin Montet, Gregor Traven, Joss Bland-Hawthorn, Gayandhi M. De Silva, Kenneth Freeman, Geraint Lewis, Karin Lind, Sanjib Sharma, Jeffrey D. Simpson, Dennis Stello, Tomaz ZwitterAnish M. Amarsi, Joseph J. Armstrong, Kirsten Banks, Mark Beavis, Kevin-Luke Beeson, Boquan Chen, Ioana Ciucacă, Gary S. Da Costa, Richard de Grijs, Bailey Martin, David Moise Nataf, Melissa Ness, Adam D. Rains, Tim Scarr, Rok Vogrinčič, Zixian Purmortal Wang, Rob A. Wittenmyer, Yi Anne Xie, The GALAH collaboration

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Abstract

The stars of the Milky Way carry the chemical history of our Galaxy in their atmospheres as they journey through its vast expanse. Like barcodes, we can extract the chemical fingerprints of stars from high-resolution spectroscopy. The fourth data release (DR4) of the Galactic Archaeology with HERMES (GALAH) Survey, based on a decade of observations, provides the chemical abundances of up to 32 elements for 917 588 stars that also have exquisite astrometric data from the Gaia satellite. For the first time, these elements include life-essential nitrogen to complement carbon, and oxygen as well as more measurements of rare-earth elements critical to modern-life electronics, offering unparalleled insights into the chemical composition of the Milky Way. For this release, we use neural networks to simultaneously fit stellar parameters and abundances across the whole wavelength range, leveraging synthetic grids computed with Spectroscopy Made Easy. These grids account for atomic line formation in non-local thermodynamic equilibrium for 14 elements. In a two-iteration process, we first fit stellar labels to all 1 085 520 spectra, then co-add repeated observations and refine these labels using astrometric data from Gaia and 2MASS photometry, improving the accuracy and precision of stellar parameters and abundances. Our validation thoroughly assesses the reliability of spectroscopic measurements and highlights key caveats. GALAH DR4 represents yet another milestone in Galactic archaeology, combining detailed chemical compositions from multiple nucleosynthetic channels with kinematic information and age estimates. The resulting dataset, covering nearly a million stars, opens new avenues for understanding not only the chemical and dynamical history of the Milky Way but also the broader questions of the origin of elements and the evolution of planets, stars, and galaxies.

Original language	English
Article number	e051
Pages (from-to)	1-42
Number of pages	42
Journal	Publications of the Astronomical Society of Australia
Volume	42
DOIs	https://doi.org/10.1017/pasa.2025.26
Publication status	Published - 27 May 2025

Bibliographical note

© The Author(s), 2025. Published by Cambridge University Press on behalf of Astronomical Society of Australia. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.

Keywords

Surveys
methods: data analysis
methods: observational
stars: abundances
stars: fundamental parameters
the Galaxy

Access to Document

10.1017/pasa.2025.26Licence: CC BY

Publisher version (open access)Final published version, 6.79 MBLicence: CC BY

Cite this

Buder, S., Kos, J., Wang, X. E., McKenzie, M., Howell, M., Martell, S., Hayden, M. R., Zucker, D. B., Nordlander, T., Montet, B., Traven, G., Bland-Hawthorn, J., De Silva, G. M., Freeman, K., Lewis, G., Lind, K., Sharma, S., Simpson, J. D., Stello, D., ... The GALAH collaboration (2025). The GALAH survey: Data release 4. Publications of the Astronomical Society of Australia, 42, 1-42. Article e051. https://doi.org/10.1017/pasa.2025.26

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title = "The GALAH survey: Data release 4",

abstract = "The stars of the Milky Way carry the chemical history of our Galaxy in their atmospheres as they journey through its vast expanse. Like barcodes, we can extract the chemical fingerprints of stars from high-resolution spectroscopy. The fourth data release (DR4) of the Galactic Archaeology with HERMES (GALAH) Survey, based on a decade of observations, provides the chemical abundances of up to 32 elements for 917 588 stars that also have exquisite astrometric data from the Gaia satellite. For the first time, these elements include life-essential nitrogen to complement carbon, and oxygen as well as more measurements of rare-earth elements critical to modern-life electronics, offering unparalleled insights into the chemical composition of the Milky Way. For this release, we use neural networks to simultaneously fit stellar parameters and abundances across the whole wavelength range, leveraging synthetic grids computed with Spectroscopy Made Easy. These grids account for atomic line formation in non-local thermodynamic equilibrium for 14 elements. In a two-iteration process, we first fit stellar labels to all 1 085 520 spectra, then co-add repeated observations and refine these labels using astrometric data from Gaia and 2MASS photometry, improving the accuracy and precision of stellar parameters and abundances. Our validation thoroughly assesses the reliability of spectroscopic measurements and highlights key caveats. GALAH DR4 represents yet another milestone in Galactic archaeology, combining detailed chemical compositions from multiple nucleosynthetic channels with kinematic information and age estimates. The resulting dataset, covering nearly a million stars, opens new avenues for understanding not only the chemical and dynamical history of the Milky Way but also the broader questions of the origin of elements and the evolution of planets, stars, and galaxies.",

keywords = "Surveys, methods: data analysis, methods: observational, stars: abundances, stars: fundamental parameters, the Galaxy",

author = "Sven Buder and Janez Kos and Wang, \{Xi Ella\} and Madeleine McKenzie and Madeleine Howell and Sarah Martell and Hayden, \{Michael R.\} and Zucker, \{Daniel B.\} and Thomas Nordlander and Benjamin Montet and Gregor Traven and Joss Bland-Hawthorn and \{De Silva\}, \{Gayandhi M.\} and Kenneth Freeman and Geraint Lewis and Karin Lind and Sanjib Sharma and Simpson, \{Jeffrey D.\} and Dennis Stello and Tomaz Zwitter and Amarsi, \{Anish M.\} and Armstrong, \{Joseph J.\} and Kirsten Banks and Mark Beavis and Kevin-Luke Beeson and Boquan Chen and Ioana Ciucac{\u a} and \{Da Costa\}, \{Gary S.\} and \{de Grijs\}, Richard and Bailey Martin and Nataf, \{David Moise\} and Melissa Ness and Rains, \{Adam D.\} and Tim Scarr and Rok Vogrin{\v c}i{\v c} and Wang, \{Zixian Purmortal\} and Wittenmyer, \{Rob A.\} and Xie, \{Yi Anne\} and \{The GALAH collaboration\}",

note = "{\textcopyright} The Author(s), 2025. Published by Cambridge University Press on behalf of Astronomical Society of Australia. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.",

year = "2025",

month = may,

day = "27",

doi = "10.1017/pasa.2025.26",

language = "English",

volume = "42",

pages = "1--42",

journal = "Publications of the Astronomical Society of Australia",

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Buder, S, Kos, J, Wang, XE, McKenzie, M, Howell, M, Martell, S, Hayden, MR, Zucker, DB, Nordlander, T, Montet, B, Traven, G, Bland-Hawthorn, J, De Silva, GM, Freeman, K, Lewis, G, Lind, K, Sharma, S, Simpson, JD, Stello, D, Zwitter, T, Amarsi, AM, Armstrong, JJ, Banks, K, Beavis, M, Beeson, K-L, Chen, B, Ciucacă, I, Da Costa, GS, de Grijs, R, Martin, B, Nataf, DM, Ness, M, Rains, AD, Scarr, T, Vogrinčič, R, Wang, ZP, Wittenmyer, RA, Xie, YA & The GALAH collaboration 2025, 'The GALAH survey: Data release 4', Publications of the Astronomical Society of Australia, vol. 42, e051, pp. 1-42. https://doi.org/10.1017/pasa.2025.26

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T2 - Data release 4

AU - Buder, Sven

AU - Kos, Janez

AU - Wang, Xi Ella

AU - McKenzie, Madeleine

AU - Howell, Madeleine

AU - Martell, Sarah

AU - Hayden, Michael R.

AU - Zucker, Daniel B.

AU - Nordlander, Thomas

AU - Montet, Benjamin

AU - Traven, Gregor

AU - Bland-Hawthorn, Joss

AU - De Silva, Gayandhi M.

AU - Freeman, Kenneth

AU - Lewis, Geraint

AU - Lind, Karin

AU - Sharma, Sanjib

AU - Simpson, Jeffrey D.

AU - Stello, Dennis

AU - Zwitter, Tomaz

AU - Amarsi, Anish M.

AU - Armstrong, Joseph J.

AU - Banks, Kirsten

AU - Beavis, Mark

AU - Beeson, Kevin-Luke

AU - Chen, Boquan

AU - Ciucacă, Ioana

AU - Da Costa, Gary S.

AU - de Grijs, Richard

AU - Martin, Bailey

AU - Nataf, David Moise

AU - Ness, Melissa

AU - Rains, Adam D.

AU - Scarr, Tim

AU - Vogrinčič, Rok

AU - Wang, Zixian Purmortal

AU - Wittenmyer, Rob A.

AU - Xie, Yi Anne

AU - The GALAH collaboration

N1 - © The Author(s), 2025. Published by Cambridge University Press on behalf of Astronomical Society of Australia. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.

PY - 2025/5/27

Y1 - 2025/5/27

N2 - The stars of the Milky Way carry the chemical history of our Galaxy in their atmospheres as they journey through its vast expanse. Like barcodes, we can extract the chemical fingerprints of stars from high-resolution spectroscopy. The fourth data release (DR4) of the Galactic Archaeology with HERMES (GALAH) Survey, based on a decade of observations, provides the chemical abundances of up to 32 elements for 917 588 stars that also have exquisite astrometric data from the Gaia satellite. For the first time, these elements include life-essential nitrogen to complement carbon, and oxygen as well as more measurements of rare-earth elements critical to modern-life electronics, offering unparalleled insights into the chemical composition of the Milky Way. For this release, we use neural networks to simultaneously fit stellar parameters and abundances across the whole wavelength range, leveraging synthetic grids computed with Spectroscopy Made Easy. These grids account for atomic line formation in non-local thermodynamic equilibrium for 14 elements. In a two-iteration process, we first fit stellar labels to all 1 085 520 spectra, then co-add repeated observations and refine these labels using astrometric data from Gaia and 2MASS photometry, improving the accuracy and precision of stellar parameters and abundances. Our validation thoroughly assesses the reliability of spectroscopic measurements and highlights key caveats. GALAH DR4 represents yet another milestone in Galactic archaeology, combining detailed chemical compositions from multiple nucleosynthetic channels with kinematic information and age estimates. The resulting dataset, covering nearly a million stars, opens new avenues for understanding not only the chemical and dynamical history of the Milky Way but also the broader questions of the origin of elements and the evolution of planets, stars, and galaxies.

AB - The stars of the Milky Way carry the chemical history of our Galaxy in their atmospheres as they journey through its vast expanse. Like barcodes, we can extract the chemical fingerprints of stars from high-resolution spectroscopy. The fourth data release (DR4) of the Galactic Archaeology with HERMES (GALAH) Survey, based on a decade of observations, provides the chemical abundances of up to 32 elements for 917 588 stars that also have exquisite astrometric data from the Gaia satellite. For the first time, these elements include life-essential nitrogen to complement carbon, and oxygen as well as more measurements of rare-earth elements critical to modern-life electronics, offering unparalleled insights into the chemical composition of the Milky Way. For this release, we use neural networks to simultaneously fit stellar parameters and abundances across the whole wavelength range, leveraging synthetic grids computed with Spectroscopy Made Easy. These grids account for atomic line formation in non-local thermodynamic equilibrium for 14 elements. In a two-iteration process, we first fit stellar labels to all 1 085 520 spectra, then co-add repeated observations and refine these labels using astrometric data from Gaia and 2MASS photometry, improving the accuracy and precision of stellar parameters and abundances. Our validation thoroughly assesses the reliability of spectroscopic measurements and highlights key caveats. GALAH DR4 represents yet another milestone in Galactic archaeology, combining detailed chemical compositions from multiple nucleosynthetic channels with kinematic information and age estimates. The resulting dataset, covering nearly a million stars, opens new avenues for understanding not only the chemical and dynamical history of the Milky Way but also the broader questions of the origin of elements and the evolution of planets, stars, and galaxies.

KW - Surveys

KW - methods: data analysis

KW - methods: observational

KW - stars: abundances

KW - stars: fundamental parameters

KW - the Galaxy

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The GALAH survey: Data release 4

Abstract

Bibliographical note

Keywords

Access to Document

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DP22: Seeing Dark with Light: Revealing the Milky Way with Stellar Streams

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The GALAH survey: Data release 4

Abstract

Bibliographical note

Keywords

Access to Document

Other files and links

Fingerprint

Projects

DP22: Seeing Dark with Light: Revealing the Milky Way with Stellar Streams

Cite this