Hubbry Logo
The Astrophysical JournalThe Astrophysical JournalMain
Open search
The Astrophysical Journal
Community hub
The Astrophysical Journal
logo
7 pages, 0 posts
0 subscribers
Be the first to start a discussion here.
Be the first to start a discussion here.
The Astrophysical Journal
The Astrophysical Journal
The Astrophysical Journal
View on Wikipedia
from Wikipedia
The Astrophysical Journal
DisciplineAstronomy, Astrophysics
LanguageEnglish
Edited byEthan Vishniac
Publication details
History1895–present
Publisher
Frequency3/month
Gold open access
4.8 (Journal)
8.8 (Letters)
8.6 (Supplement) (2023)
Standard abbreviations
ISO 4Astrophys. J.
Indexing
ISSN0004-637X (print)
1538-4357 (web)
Links

The Astrophysical Journal (ApJ[1]) is a peer-reviewed scientific journal of astrophysics and astronomy, established in 1895 by American astronomers George Ellery Hale and James Edward Keeler. The journal discontinued its print edition and became an electronic-only journal in 2015.[2]

Since 1953, The Astrophysical Journal Supplement Series (ApJS) has been published in conjunction with The Astrophysical Journal, with generally longer articles to supplement the material in the journal. It publishes six volumes per year, with two 280-page issues per volume.

The Astrophysical Journal Letters (ApJL), established in 1967 by Subrahmanyan Chandrasekhar as Part 2 of The Astrophysical Journal, is now a separate journal focusing on the rapid publication of high-impact astronomical research.

The three journals were published by the University of Chicago Press for the American Astronomical Society until, in January 2009, publication was transferred to IOP Publishing,[3] following the move of the society's Astronomical Journal in 2008. The reason for the changes were given by the society as the increasing financial demands of the University of Chicago Press.[4] Compared to journals in other scientific disciplines, The Astrophysical Journal has a larger (> 85%) acceptance rate, which, however, is similar to other journals covering astronomy and astrophysics.[5][6]

On January 1, 2022, the AAS Journals, including ApJ, changed to an open access model, with access restrictions and subscription charges removed from previously published papers.[7] Articles accepted after October 11, 2022, will be published under the Creative Commons license CC-BY-SA 4.0. Non-open access articles accepted before that date will be free to access but will still need permission to reuse.[8]

History

[edit]

The journal was founded in 1895 by George Ellery Hale and James E. Keeler as The Astrophysical Journal: An International Review of Spectroscopy and Astronomical Physics.[9] In addition to the two founding editors, there was an international board of associate editors: M. A. Cornu, Paris; N. C. Dunér, Upsala; William Huggins, London; P. Tacchini, Rome; H. C. Vogel, Potsdam, C. S. Hastings, Yale; A. A. Michelson, Chicago; E. C. Pickering, Harvard; H. A. Rowland, Johns Hopkins; and C. A. Young, Princeton.[10] It was intended that the journal would fill the gap between journals in astronomy and physics, providing a venue for publication of articles on astronomical applications of the spectroscope; on laboratory research closely allied to astronomical physics, including wavelength determinations of metallic and gaseous spectra and experiments on radiation and absorption; on theories of the Sun, Moon, planets, comets, meteors, and nebulae; and on instrumentation for telescopes and laboratories.[10] The further development of ApJ up to 1995 was outlined by Helmut Abt in an article entitled "Some Statistical Highlights of the Astrophysical Journal" in 1995.[11]

Editors

[edit]

The following persons have been editors-in-chief of the journal:

See also

[edit]

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

The Astrophysical Journal

View on Grokipedia
from Grokipedia
The Astrophysical Journal (often abbreviated as ApJ) is a peer-reviewed scientific journal dedicated to publishing original research articles on theoretical and observational developments, discoveries, and theories in astronomy and . Founded in 1895 by astronomers and James E. Keeler, it is owned and operated by the (AAS) and currently published on their behalf by as an journal. The journal releases three issues per month, encompassing a broad range of topics from stellar and galactic to cosmology and . Established at the under Hale's editorship, The Astrophysical Journal quickly became a cornerstone of astrophysical research, filling a need for a dedicated outlet amid the growing field of and astronomical physics in the late . Initially published by the , the journal transitioned to in 2009 following a partnership agreement with the AAS in 2007, which enhanced its digital infrastructure and global reach. Announced in September 2021 and effective 1 January 2022, ApJ transitioned to , ensuring all articles are freely available without author fees, supported by AAS society funds and institutional sponsorships. The Astrophysical Journal comprises three interconnected parts: the main journal for comprehensive papers, Astrophysical Journal Letters (ApJL) for rapid of high-impact, concise results since 1967, and Astrophysical Journal Supplement Series (ApJS) for extensive datasets and catalogs since the 1950s. With an of 5.4 (2024) and an h5-index of 167, it ranks among the top journals in astronomy and , reflecting its influence through thousands of annual citations and contributions to major discoveries like imaging and characterizations.

Overview

Introduction

The Astrophysical Journal (ApJ) is a peer-reviewed scientific journal dedicated to the publication of original research in and astronomy. It was established in 1895 by American astronomers and James Edward Keeler as a venue for advancing the understanding of astronomical physics through and related fields. The journal's original full title was The Astrophysical Journal: An International Review of and Astronomical Physics, reflecting its initial emphasis on spectroscopic techniques and theoretical advancements in the nascent field of . Since January 2009, the journal has been published by on behalf of the (AAS), which assumed ownership in 1972 following its earlier publication by the . In 2015, ApJ transitioned to an electronic-only format, eliminating print editions to enhance accessibility and efficiency in distribution. The journal operates under ISSN 0004-637X (print) and 1538-4357 (online), and it maintains a publication frequency of three issues per month. A significant occurred on , 2022, when ApJ became fully , allowing immediate free access to all new content under a CC BY 4.0 license, thereby broadening its reach to researchers worldwide without subscription barriers. This shift aligns with the AAS's mission to promote the free dissemination of astronomical knowledge, building on the journal's long-standing role as a cornerstone of the discipline.

Scope and Focus

The Astrophysical Journal (ApJ) primarily covers theoretical and observational research in , encompassing key areas such as , astronomical physics, theories of the solar system, and . It publishes original research articles that emphasize significant advancements in astronomy and , including topics like quasars, pulsars, stars, black holes, solar and stellar magnetic fields, X-rays, interstellar matter, atomic and molecular , , , and instrumental developments. The journal prioritizes work that derives substantial scientific results from observations, theoretical models, or computational simulations with clear astrophysical applications, ensuring contributions advance the understanding of cosmic phenomena. Complementing the main journal are two related publications owned by the (AAS): the Astrophysical Journal Letters (ApJL), established in 1967 for rapid communications of timely and impactful short notices, and the Astrophysical Journal Supplement Series (ApJS), established in 1953 for data-intensive papers containing extensive datasets, catalogs, or specialized calculations. These sister journals allow for diverse formats while maintaining the overarching focus on high-impact research, with ApJS particularly noted for its highly cited content on comprehensive data resources. All submissions undergo rigorous , typically involving one or more experts, to evaluate scientific rigor, novelty, and relevance to the broad astrophysical community; authors may request dual-anonymous review to enhance impartiality. The journal excludes purely astronomical observations lacking astrophysical interpretation, as well as papers in pure physics, chemistry, or that do not directly apply to astrophysical contexts, directing such work to specialized venues instead. This selective criteria ensures ApJ remains a premier outlet for transformative research that bridges observation, theory, and instrumentation in the field.

History

Founding

The Astrophysical Journal was established in 1895 by astronomers and James Edward Keeler to address the increasing demand for a specialized publication dedicated to spectroscopic research and astronomical physics, as general astronomy journals of the era could not adequately accommodate the rapid advancements in these areas. Hale, serving as director of and renowned for his pioneering work in solar —including the invention of the spectroheliograph—sought to foster a venue for integrating physics with astronomical observations. Keeler, an expert in stellar at Allegheny Observatory, complemented Hale's vision by emphasizing detailed spectral analyses of celestial objects, driven by their shared recognition that was transforming astronomy into a more quantitative science. The journal's inaugural issue appeared in January 1895, published by the , marking the launch of The Astrophysical Journal: An International Review of Spectroscopy and Astronomical Physics. From its outset, the publication prioritized empirical data gathered from telescopes, particularly through spectroscopic methods, alongside theoretical interpretations that linked observations to physical principles. This focus reflected the founders' commitment to an international scope, inviting contributions from global researchers to build a comprehensive record of astrophysical discoveries. Hale acted as the managing editor, guiding the journal's early operations with support from a board of prominent collaborators, while Keeler co-edited and contributed key articles on stellar spectra. Leading astronomers, including Edward C. Pickering of Observatory—who published significant photometric and spectroscopic studies in the first volume—provided essential contributions that helped establish the journal's reputation for rigorous, data-driven scholarship.

Key Developments

In 1971, the (AAS) assumed ownership of The Astrophysical Journal from the , solidifying its status as the society's flagship publication. A significant structural expansion occurred in 1954 with the launch of the Astrophysical Journal Supplement Series (ApJS), designed to accommodate lengthy articles featuring extensive data tables, catalogs, and large-scale surveys that exceeded the main journal's space constraints. The supplements addressed the growing need for disseminating complex datasets in an era of expanding observational capabilities. In 1967, under the editorship of , the Astrophysical Journal Letters (ApJL) was introduced as Part 2 of the journal to facilitate the rapid dissemination of short, high-impact results, allowing timely publication of breakthrough findings without the full review process of standard articles. Editorial leadership during the saw serve as Editor-in-Chief from the late 1920s into the 1930s, a tenure marked by an emphasis on and the integration of emerging extragalactic studies into the journal's content. Following , the journal experienced substantial growth, with the number of pages per volume doubling from approximately 800 in 1945 to 1,600 by 1994, driven by a surge in submissions fueled by advancements in and the advent of space-based observations. This expansion reflected the broadening scope of , as new technologies enabled discoveries in previously inaccessible domains such as cosmic radio emissions and ultraviolet from orbital platforms.

Recent Changes

In the early 21st century, The Astrophysical Journal underwent significant shifts in its publishing model to adapt to digital advancements. Following management by the , the (AAS) transferred publication of its journals, including ApJ, to starting with the 2009 volumes, aiming to leverage IOP's expertise in online platforms for improved digital dissemination and accessibility. A major transition occurred in 2015 when ApJ and its associated titles discontinued print editions entirely, becoming electronic-only publications to cut costs, streamline operations, and enhance global reach through faster online availability. This move aligned with broader trends in scientific toward digital formats, allowing immediate access to articles upon acceptance rather than waiting for print cycles. On January 1, 2022, ApJ implemented full , making all new content freely available under licenses, with funding provided by the AAS and article processing charges paid by authors or their institutions. This policy shift ensured barrier-free access to research, reflecting the journal's commitment to equitable dissemination in the digital age. In response to the evolving digital landscape, ApJ deepened its integration with the Astrophysics Data System (ADS) for abstracting and indexing, facilitating seamless searchability and linkage of articles to related datasets since the . Concurrently, the journal placed greater emphasis on data archiving requirements, introducing initiatives like data behind figures in 2010 to mandate deposition of supporting data in public repositories, promoting reproducibility and transparency in astrophysical research. During the in 2020–2021, ApJ temporarily accelerated its online-first publishing process to expedite the release of accepted manuscripts, supporting rapid sharing of astronomical findings amid global disruptions to research workflows.

Publication Details

Format and Accessibility

The Astrophysical Journal (ApJ) is published exclusively in digital format, offering articles in PDF, , and XML versions to facilitate versatile access and reuse. Full-length articles in the main journal typically range from 10 to 50 pages, accommodating detailed research presentations, while those in The Astrophysical Journal Letters (ApJL) are shorter, typically limited to 40 quanta (approximating plus figures and tables) for rapid dissemination of significant results. This digital-first approach, hosted on the IOPscience platform, ensures high-quality rendering of complex astrophysical content, including equations, figures, and tables optimized for online viewing. Accessibility is enhanced through several integrated features on IOPscience, including persistent Digital Object Identifiers (DOIs) for each article to enable stable linking and citation tracking, full-text search capabilities for efficient discovery across the journal's archive, and mandatory integration with identifiers for the submitting author to promote accurate attribution of scholarly work. The platform supports responsive design for viewing on various devices and includes tools for downloading or exporting content in multiple formats. Since January 1, 2022, all ApJ articles have been fully under a BY 4.0 license, allowing free reading, sharing, and reuse worldwide without subscription barriers; this represents a shift from the prior hybrid model where was optional. Publication requires an (APC), with waivers of 5–100% available through the AAS Publication Support Fund for authors in need; APCs are tiered by article length in "quanta": $1,357 for articles ≤30 quanta, $3,011 for 31–50 quanta, $5,315 for 51–100 quanta, with an additional $250 surcharge for articles exceeding 100 quanta, as of 2025 rates. For long-term preservation, ApJ content is deposited in the CLOCKSS and archives, ensuring perpetual access even in the event of publisher disruptions. Authors are encouraged to include machine-readable data supplements, such as tabular datasets in structured ASCII format compliant with CDS standards, particularly for tables exceeding 200 rows, to enhance reproducibility and integration with astronomical databases. The submission process is conducted entirely online through the ScholarOne Manuscripts system (accessible via msubmit.net), where authors use provided templates from the AASTeX package—tailored for astrophysics with support for specialized markup like astronomical units, citations, and figure handling—to prepare and upload manuscripts efficiently.

Publisher and Distribution

The Astrophysical Journal was initially published by the from its founding in 1895 until 2008, a decision driven by founder George Ellery Hale's deep ties to the , where he served as a professor and director of the . In 1971, ownership transferred to the (AAS), establishing the journal as the society's flagship publication and official organ for advancing astronomical research, with revenues from publication fees and other sources directed toward supporting AAS programs, meetings, and educational initiatives. Publication responsibilities shifted to in January 2009 under a multi-year contract awarded by the AAS in April 2007, aimed at providing professional management for all AAS journals following a similar transition for The Astronomical Journal in 2008. This partnership enhanced operational efficiency, including streamlined and digital production, while maintaining AAS oversight of editorial content and policy. The journal's distribution emphasizes worldwide electronic access via the IOPscience platform, which hosts full-text articles, supplements, and archives dating back to 1895. Print editions ceased with the 2015 subscription year, eliminating print-on-demand options and aligning with the broader shift to digital dissemination in scientific publishing. Its global reach is facilitated by indexing in key databases including , , and the (ADS), enabling seamless discovery and access for researchers across international institutions.

Editorial Structure

Editors-in-Chief

The of The Astrophysical Journal (ApJ) is responsible for providing overall leadership, setting the journal's strategic direction, establishing editorial policies, and handling final decisions on publication appeals, in consultation with the (AAS) Publications Board. Since the AAS assumed ownership of the journal in 1971, Editors-in-Chief have been appointed by the Society, typically selecting distinguished astronomers for terms that vary in length based on the needs of the publication and the individual's contributions. Early leaders, often referred to as managing editors, played similar roles in shaping the journal's focus on advancing astrophysical research. The journal's editorial leadership has evolved alongside advancements in astronomy, with each Editor-in-Chief leaving a distinct mark on its development. Below is a table summarizing the historical Editors-in-Chief and their tenures, drawn from archival records and official announcements.
Editor-in-ChiefTenureNotable Contributions
George Ellery Hale1895–1905Co-founded the ApJ with James E. Keeler, establishing it as a premier venue for spectroscopic and astrophysical studies; remained influential on the masthead post-tenure.
Edwin B. Frost1905–1932Served as managing editor while directing Yerkes Observatory, expanding the journal's scope to include observational astrophysics during a period of rapid instrumental growth.
Otto Struve1932–1947Oversaw editorial operations amid World War II disruptions, emphasizing high standards in stellar spectroscopy and galactic structure research.
W. W. Morgan1947–1952First managing editor not tied to Yerkes directorship; focused on post-war recovery and integrating new theoretical insights into observational data.
Subrahmanyan Chandrasekhar1952–1971Elevated the ApJ to the leading international journal in astrophysics, particularly boosting theoretical work on stellar structure and radiative transfer; facilitated the 1971 transition to AAS ownership.
Helmut A. Abt1971–1999Longest-serving Editor-in-Chief, managing a surge in submissions during the era of space-based observatories; implemented rigorous peer-review standards that solidified the ApJ's reputation for quality; died on November 22, 2024.
Robert C. Kennicutt Jr.1999–2006Guided the journal through the digital publishing transition, enhancing electronic accessibility and maintaining its dominance in galaxy evolution and star formation studies.
Ethan T. Vishniac2006–2027Led the full transition to open access in 2022, promoting broader dissemination of research; emphasized diversity, equity, and inclusion in editorial processes to reflect the global astronomical community.
These leaders, all accomplished astronomers, have collectively steered the ApJ toward its current status as a of astrophysical literature, adapting to technological and societal shifts while upholding scientific rigor.

Editorial Board and Processes

The of The Astrophysical Journal comprises 39 science editors and 6 supporting staff editors, drawn from a diverse array of institutions worldwide to cover key subfields in astronomy and , including galaxies, stars, cosmology, , and theoretical modeling. These editors, often serving as associate or scientific editors, handle manuscript assignments based on expertise, while guest editors are occasionally appointed for special issues on emerging topics. As of 2025, Ethan Vishniac serves as Editor-in-Chief, providing overarching oversight, with recent additions such as Tiziana Di Matteo in 2024, who focuses on , and Jing Wang in November 2024, specializing in galactic and . The peer-review process employs a double-anonymized (dual anonymous) format to minimize bias, with manuscripts typically assigned to 2-3 independent referees selected for their relevant expertise. The average time from submission to first decision is efficient, often within 4-8 weeks, allowing for prompt feedback while ensuring thorough evaluation. The journal maintains an acceptance rate of approximately 85%, corresponding to a rejection rate of about 15%, with desk rejections applied to submissions outside scope or lacking sufficient novelty. Editorial policies emphasize reproducibility and , requiring authors to share data and code via repositories like , with DOIs assigned for citability, and to adhere to AAS ethical guidelines on authorship, conflicts of interest, and . Editors and referees are supported by AAS resources, including workshops on peer-review best practices, implicit bias strategies, and promotion of transparent, inclusive publishing. This framework ensures rigorous, equitable handling of submissions aligned with the journal's focus on advancing astrophysical research.

Impact and Legacy

Citation Metrics

The Astrophysical Journal (ApJ) and its companion publications, the Astrophysical Journal Letters (ApJL) and the Astrophysical Journal Supplement Series (ApJS), demonstrate strong influence through established citation metrics. According to the 2025 , the 2024 for the main ApJ is 5.4, reflecting citations in 2023 and 2024 to articles published in 2022 and 2023. ApJL, focused on rapid high-impact results, achieves a higher of 11.7, while ApJS, which publishes extensive data compilations, stands at 8.5. The five-year for ApJ averages 5.2, indicating sustained relevance over longer periods. Additional bibliometric indicators underscore the journal's prestige. The (SJR) for ApJ in 2024 is 2.038, placing it in the Q1 quartile for astronomy and . Its h-index exceeds 499, meaning at least 499 articles have each received 499 or more citations, a measure of and . Similarly, the h5-index from Metrics for ApJ (including ApJL) is 167, ranking it first among astronomy and journals. Citation trends show a steady increase following the transition to fully open access in 2022, with ApJ articles accumulating over 319,000 total citations as of 2025. Tracked via the NASA Astrophysics Data System (ADS), the journal family receives tens of thousands of citations annually, supporting its role as a core venue for astrophysical research. In comparative rankings, ApJ holds a position among the top five astrophysics journals by impact factor, trailing Nature Astronomy (approximately 14.3) but surpassing many specialized outlets like Monthly Notices of the Royal Astronomical Society (around 5.0). Altmetric scores further highlight engagement, particularly for ApJL articles on major breakthroughs. For instance, the 2023 ApJL paper on evidence for a gravitational-wave background from the NANOGrav collaboration garnered an Attention Score of 2551, driven by widespread shares and coverage.
Publication2024 Impact FactorSJR (2024)h-index
ApJ5.42.038 (Q1)499
ApJL11.73.713 (Q1)212
ApJS8.53.344 (Q1)286

Notable Contributions

The Astrophysical Journal's early milestones were set by its founder, , whose pioneering papers on solar spectroscopy in the 1890s laid an empirical foundation for the journal's focus on observational astrophysics. Hale's work, including detailed analyses of solar prominences and chromospheric spectra using the newly invented spectroheliograph, demonstrated the journal's commitment to advancing spectroscopic techniques for understanding stellar and . These contributions not only established rigorous standards for data presentation but also highlighted the journal's role in bridging laboratory physics with astronomical observations. In the , the journal became a cornerstone for iconic discoveries in cosmology and . Edwin Hubble's 1929 paper on the relation between galaxy distances and radial velocities, though initially published in the Proceedings of the , built directly on his extensive ApJ contributions to extragalactic distances and set the stage for subsequent analyses in the journal, fundamentally establishing the expanding model. Complementing this, Subrahmanyan Chandrasekhar's 1931 derivation of the maximum mass limit for white dwarfs, published in ApJ, provided a theoretical framework for and , predicting that stars exceeding approximately 1.4 solar masses would collapse under gravity. This limit, now known as the , influenced models of progenitors and formation. Modern examples underscore the journal's ongoing role in transformative discoveries. Following the initial 1995 detection of in , ApJ hosted key confirmation and characterization papers, such as high-resolution spectroscopic studies revealing atmospheric features and orbital dynamics of hot Jupiters, accelerating the field of science. In 2016, ApJ Letters published analyses of electromagnetic counterparts to LIGO's first detection (GW150914), including Fermi Gamma-ray Burst Monitor observations of a potential short 0.4 seconds after the merger, linking multimessenger astronomy and confirming black hole binary coalescences. Thematically, the Astrophysical Journal Supplement Series (ApJS) has enabled major surveys through comprehensive catalogs, such as those from the (SDSS), which have mapped millions of galaxies and quasars to probe cosmic structure and evolution. Meanwhile, the Astrophysical Journal Letters (ApJL) facilitates rapid dissemination of time-sensitive findings, including observations of supernovae like the remnant of the historical AD, revealing insights into mechanisms and galactic chemical enrichment. Overall, with over 100,000 articles published since 1895, the journal has profoundly shaped , from foundational theories of to large-scale cosmological models. Its publications continue to drive conceptual advances in understanding the universe's fundamental processes.

References

  1. https://iopscience.iop.org/journal/0004-637X
  2. https://journals.aas.org/astrophysical-journal/
  3. https://iopscience.iop.org/journal/0004-637X/page/Scope
  4. https://phys.org/journals/astrophysical-journal/
  5. https://spacenews.com/american-astronomical-society-selects-institute-of-physics-publishing-as-new-publishing-partner/
  6. https://aas.org/press/aas-journals-open-access
  7. https://journals.aas.org/astrophysical-journal-letters/
  8. https://journals.aas.org/astrophysical-supplement-series/
  9. https://aas.org/posts/news/2025/06/aas-journals-again-receive-strong-impact-factors
  10. https://adsabs.harvard.edu/full/1995ApJ...438....1O
  11. https://portal.issn.org/resource/ISSN/1538-4357
  12. https://ioppublishing.org/news/american-astronomical-society-journals-going-electronic-only/
  13. https://portal.issn.org/resource/ISSN/0004-637X
  14. https://www.ncbi.nlm.nih.gov/nlmcatalog/9890633
  15. https://journals.aas.org/oa/
  16. https://journals.aas.org/faq-accessible/
  17. https://iopscience.iop.org/journal/0004-637X/page/about-the-journal
  18. https://iopscience.iop.org/journal/0067-0049
  19. https://iopscience.iop.org/journal/2041-8205
  20. https://journals.aas.org/policies
  21. https://ui.adsabs.harvard.edu/abs/1995ApJ...438....1O/abstract
  22. https://www.nasonline.org/wp-content/uploads/2024/06/hale-george-ellery.pdf
  23. http://collections.ucolick.org/exhibits_on_line/E2E.1/JEK.html
  24. https://www.lib.uchicago.edu/e/scrc/findingaids/view.php?eadid=ICU.SPCL.APJ
  25. https://babel.hathitrust.org/cgi/pt?id=uc1.c040948667
  26. https://books.google.com/books/about/The_Astrophysical_Journal.html?id=9oIOAAAAIAAJ
  27. https://iopscience.iop.org/journal/0067-0049/page/Scope
  28. http://kiaa.pku.edu.cn/info/1031/1065.htm
  29. https://aas.org/timeline
  30. https://aas.org/sites/default/files/2019-09/Newsletter_142_2008_09_September_October.pdf
  31. https://aas.org/press/american-astronomical-society-journals-going-electronic-only
  32. https://aasnova.org/2021/09/01/aas-journals-go-open-access/
  33. https://ui.adsabs.harvard.edu/about/history/
  34. https://aas.org/posts/news/2014/02/data-publishing-aas-journals-perspective
  35. https://publishingsupport.iopscience.iop.org/publishing-support/authors/covid-19-response-guidance/
  36. https://journals.aas.org/the-astrophysical-journal-letters/
  37. https://journals.aas.org/article-charges-and-copyright/
  38. https://publishingsupport.iopscience.iop.org/orcid/
  39. https://journals.aas.org/waivers/
  40. https://www.portico.org/
  41. https://clockss.org/
  42. https://journals.aas.org/data-guide/
  43. https://journals.aas.org/manuscript-preparation/
  44. https://fi.edu/en/news/case-files-george-ellery-hale
  45. https://www.newswise.com/articles/american-astronomical-society-selects-iop-publishing-as-new-publishing-partner
  46. https://aas.org/sites/default/files/2019-09/Newsletter_135_2007_06_May_June.pdf
  47. https://www.knowledgespeak.com/news/american-astronomical-society-journals-to-stop-print-editions/
  48. https://journals.aas.org/editorial/
  49. https://www.lib.uchicago.edu/ead/rlg/ICU.SPCL.APJ.pdf
  50. https://mathshistory.st-andrews.ac.uk/Obituaries/Chandrasekhar_RAS/
  51. https://www.researchgate.net/publication/386993933_Helmut_Abt_and_His_Stellar_Legacy
  52. https://noirlab.edu/public/blog/reflections-helmut-abt/
  53. https://aas.org/posts/news/2024/12/remembering-helmut-abt-1925-2024
  54. https://iopscience.iop.org/article/10.1086/313226
  55. https://aas.org/press/ethan-vishniac-step-down-editor-chief-aas-journals-2027
  56. https://www.uksg.org/newsletter/aas-journals-will-switch-open-access-2022/
  57. https://www.cmu.edu/physics/news-events/2024/1115_dimatteo-named-scientific-editor.html
  58. https://kiaa.pku.edu.cn/info/1031/9815.htm
  59. https://journals.aas.org/psj-policies/
  60. https://aas.org/posts/news/2022/01/aas-journals-absolutely-amazing
  61. https://journals.aas.org/professional-and-ethical-standards-for-the-aas-journals/
  62. https://aas.org/posts/news/2025/09/build-your-peer-review-skills-aas-247
  63. https://www.aaas.org/news/journals-and-funders-confront-implicit-bias-peer-review
  64. https://wos-journal.info/journalid/11434
  65. https://www.scimagojr.com/journalsearch.php?q=26765&tip=sid
  66. https://www.bioxbio.com/journal/ASTROPHYS-J
  67. https://ooir.org/journals.php?field=Physics&category=Astronomy%2B%2526%2BAstrophysics&metric=jif
  68. https://ooir.org/j.php?issn=2041-8205
  69. https://adsabs.harvard.edu/full/1995ApJ...455..403B
  70. https://ui.adsabs.harvard.edu/abs/1931ApJ....74...81C/abstract
  71. https://iopscience.iop.org/article/10.1088/0004-637X/767/1/27
  72. https://iopscience.iop.org/article/10.3847/2041-8205/826/1/L6
  73. https://iopscience.iop.org/article/10.3847/1538-4365/aba623
  74. https://iopscience.iop.org/article/10.3847/2041-8213/ac2253
Add your contribution
Related Hubs
User Avatar
No comments yet.