Journal of Applied Physics
The Journal of Applied Physics (JAP) is a peer-reviewed scientific journal that publishes significant new experimental and theoretical results advancing the understanding of applied physics and closely related fields.[1][2] Founded in 1931 and published by AIP Publishing, it serves as an influential international platform for full-length articles, innovative methods, comprehensive reviews, perspectives, and tutorials on topics spanning materials physics, photonics, quantum technologies, energy systems, nanotechnology, and more.[1][3] With a 2024 impact factor of 2.5 and a five-year impact factor of 2.7, the journal has amassed over 145,000 total citations, reflecting its enduring role in bridging fundamental physics with practical technological applications.[1] In addition to its core emphasis on original research that demonstrates broad impact, JAP prioritizes manuscripts that introduce new or improved experimental and computational techniques, as well as forward-looking reviews that synthesize emerging trends in applied physics.[4] The journal's rigorous peer-review process ensures high-quality contributions, and it maintains an ISSN of 0021-8979 (print) and 1089-7550 (online), with issues released weekly to facilitate timely dissemination.[1][5] Notably, starting in 2024 and continuing in 2025, JAP has adopted an open access model under AIP Publishing's Subscribe to Open pilot, making all articles from those years freely accessible worldwide at no cost to authors, thereby enhancing global reach and equity in scientific communication.[6] This evolution underscores the journal's commitment to modern scholarly publishing practices while upholding its legacy as a cornerstone of applied physics literature.[1]History
Founding and early years
The Journal of Applied Physics was established in January 1931 by the American Physical Society as Physics, the first journal dedicated to both general and applied physics research. It was published by APS until 1936, then transferred to the American Institute of Physics (AIP) in 1937 and renamed Journal of Applied Physics to better reflect its emphasis on applied research.[7][8][9] This launch occurred amid the economic turmoil of the Great Depression, which had strained research funding and publishing resources for physics societies, prompting the creation of AIP to centralize and support scientific dissemination.[10] The journal's initial scope emphasized bridging fundamental theoretical physics with practical applications in industry and emerging technologies, addressing the post-World War I surge in demand for innovation in areas like materials and electrical engineering that could drive economic recovery.[11] Unlike the Physical Review, which focused primarily on pure, theoretical physics, Physics was designed to highlight applied work with immediate relevance to technological advancement, filling a critical gap in the literature during a period when industrial research was expanding despite financial constraints.[12] John T. Tate, a physicist at the University of Minnesota and managing editor of the Physical Review, served as the inaugural editor from 1931 to 1936, guiding the journal's early direction and ensuring rigorous standards for contributions.[8][13] Under his leadership, the publication began as a monthly journal starting in July 1931, with volume 1 encompassing multiple issues and totaling around 500 pages, featuring representative early topics such as vacuum technology, electrical discharges, and photoelectric effects that underscored its applied orientation.[14]Evolution and milestones
Following World War II, the Journal of Applied Physics experienced substantial expansion, fueled by the surge in research from wartime technological advancements such as radar, nuclear physics, and materials engineering. In 1947, the publication frequency increased to monthly to manage the influx of submissions, up from bimonthly issues in the early 1940s. By the 1960s, annual volumes had grown to exceed 2,000 pages, supporting detailed studies in emerging areas like solid-state physics and electronics.[15][16] Key milestones underscored the journal's adaptation to publishing innovations and scientific progress. AIP introduced electronic publishing across its portfolio in the 1990s, with the Journal of Applied Physics becoming fully available online in 1997, enhancing global accessibility. The shift to an online-first model around 2000 accelerated article dissemination by prioritizing digital release over print schedules. In 1981, the journal marked its 50th anniversary with special issues dedicated to semiconductors, commemorating pivotal contributions to transistor technology and device fabrication.[17][18][15] Editorial leadership transitions reflected evolving priorities in applied physics. After John Tate's foundational role in the 1930s, Elmer Hutchisson served as Editor-in-Chief from 1937 to 1954, guiding the journal through the postwar growth in experimental techniques. P. James Viccaro served as Editor-in-Chief from 2000 to 2014, steering the digital transformation and expanding interdisciplinary coverage. Julia R. Greer assumed the role of Editor-in-Chief in 2024, emphasizing nanoscale materials and mechanical properties.[19][18][20] Recent developments have focused on accessibility and sustainability. The journal adopted a hybrid open access model in 2015, allowing authors to opt for immediate open access alongside subscription-based content. The journal adopted a full open access model in 2024 under AIP Publishing's Subscribe to Open pilot, making all articles freely accessible without author charges. This continued in 2025, with an announcement on October 30, 2025, to conclude the pilot at year's end and advance to a unified open access strategy.[21][22][23] Institutional changes at AIP further broadened the journal's scope. During the 1970s, AIP merged with the American Association of Physicists in Medicine and the American Vacuum Society, integrating topics like biomedical applications and surface science into applied physics research published in the journal.[9]Scope and content
Research areas covered
The Journal of Applied Physics primarily covers core areas within applied physics, including condensed matter physics focused on materials properties and thin films, applied optics and photonics encompassing plasmonics, photovoltaics, and lasers, and nanotechnology involving nanomaterials and nanoscale structures.[1] These domains emphasize experimental and theoretical advancements that bridge fundamental physics with practical implementations, such as semiconductor device physics and sensor technologies.[1] Emerging fields addressed by the journal include applications of plasma physics, such as electrical discharges and plasma-surface interactions, energy materials like batteries and photovoltaics for sustainability, and biomechanics alongside soft matter physics.[24][1] Recent publications highlight innovations in these areas, including hybrid organic-inorganic systems for energy applications and nanoscale materials for advanced devices.[25] The journal's interdisciplinary focus integrates physics with engineering principles, particularly in device fabrication, sensor development, and computational modeling for applied contexts like quantum technologies and thermal management.[1][25] This approach fosters contributions that apply physical insights to real-world engineering challenges, excluding purely theoretical physics lacking demonstrable applications.[25] Biomedical imaging topics are typically directed to specialized AIP journals rather than the core applied physics coverage here.[26]Types of articles published
The Journal of Applied Physics publishes a variety of article types focused on advancing applied physics research, each with specific purposes and formats designed to disseminate novel findings, overviews, and educational content. Standard research articles, also referred to as full-length articles, present original experimental or theoretical studies that report new, timely results of broad interest to the applied physics community, emphasizing advancements in understanding physical mechanisms or enabling practical applications.[4] These articles must include sufficient detail for reproducibility and are subject to rigorous peer review to ensure novelty and relevance.[4] In addition to standard articles, the journal accepts methods papers that describe new or significantly improved experimental or computational techniques, validated through accompanying results to demonstrate their utility in applied physics contexts.[4] Invited perspectives provide authors' expert opinions on the direction of a field, highlighting recent advances and future challenges without requiring original data.[4] Tutorials, also typically invited, serve as educational resources at an advanced graduate level, explaining key concepts or methods in applied physics, such as simulation techniques, without presenting new research.[4] Reviews offer comprehensive, critical overviews of established or emerging subfields, synthesizing existing literature rather than introducing novel experiments.[4] Special collections, or special topics, curate invited and contributed papers on innovative, timely themes to foster focused discussions within the community; examples include the 2020 collection "Beyond Graphene: Low Symmetry and Anisotropic 2D Materials," which explored emerging two-dimensional systems, the 2023 collection on "2D Piezoelectrics, Pyroelectrics, and Ferroelectrics," addressing functional properties for device applications, and more recent ones such as "Defects in Semiconductors 2024" and "Muography: Discoveries, Innovations, and Applications" (as of 2025).[27][28][29][30] These collections typically feature 10–30 articles and are open for submissions during designated periods. All article types follow unified submission guidelines with no page or color charges, allowing flexibility in length as determined by editorial assessment of appropriateness and completeness.[4] Manuscripts should include up to eight high-quality figures embedded in the text, with supplementary materials—such as extended datasets, videos, or detailed methods—encouraged and posted online as provided to enhance accessibility.[31] A data availability statement is required for all submissions, specifying how underlying data can be accessed, preferably via public repositories, to promote transparency and reproducibility.[31] Submissions are evaluated initially for fit within the journal's scope of applied physics, with those lacking sufficient novelty or real-world relevance potentially declined prior to peer review.[4]Editorial structure
Leadership and editorial board
The Journal of Applied Physics is led by Editor-in-Chief Julia R. Greer, a professor at the California Institute of Technology, who was appointed in early 2024 and oversees the journal's overall editorial direction with an emphasis on advancing applications in materials science, particularly nano- and micro-architected materials through techniques like 3D lithography and additive manufacturing.[20][8] Supporting her are four Deputy Editors, each specializing in key subfields: Christian Brosseau from Université de Bretagne Occidentale in France, focusing on magnetism, plasmonics, and nanophysics; Peter Hosemann from the University of California, Berkeley, specializing in materials under extreme environments and additive manufacturing; Laurie E. McNeil from the University of North Carolina at Chapel Hill, with expertise in optical spectroscopy and materials physics; and Simon R. Phillpot from the University of Florida, concentrating on atomic-scale simulations and phonon-mediated heat transport.[8] The journal's Associate Editors consist of a team of 18 experts drawn from academia and national laboratories worldwide, handling manuscript assignments and initial evaluations in areas such as materials science, nanotechnology, semiconductors, photonics, magnetism, and computational physics.[8] Representative members include David Aspnes from North Carolina State University, who covers optics and semiconductor physics; Yevgeny Raitses from the Princeton Plasma Physics Laboratory, specializing in plasma physics and plasma-surface interactions; Rachel S. Goldman from the University of Michigan, focusing on semiconductors and thin films in materials science; and Paolo Vavassori from CIC nanoGune in Spain, with expertise in nanomagnetism and nanoscale materials.[8] These editors, affiliated primarily with institutions in the United States (12), along with Canada, China, Australia, Belgium, France, Spain, and Taiwan, contribute to the journal's rigorous handling of submissions across its broad scope.[8] Complementing the core editorial team is the Editorial Advisory Board, comprising 39 international members from academia and industry, selected for their prominence in fields like nanotechnology, photonics, semiconductors, and solid-state physics.[32] The board provides strategic guidance and reflects geographic diversity, with representatives from countries including the United States, Japan, the United Kingdom, China, India, Brazil, South Korea, and several European nations.[32] Since 2020, the board has been expanded to enhance gender, geographic, and early-career representation, including 12 early-career investigators such as Ahmedullah Aziz from the University of Tennessee and Nasim Mohammadi Estakhri from the University of Illinois at Chicago, underscoring a commitment to inclusivity in applied physics leadership.[25][32] Previous Editors-in-Chief include André Anders, who served from 2014 to 2024 and guided the journal through expansions in article formats and inclusivity initiatives.[33][34] Editors and board members are appointed by AIP Publishing based on nominations and expertise, with policies in place to manage conflicts of interest through disclosures and recusal from related decisions.[20][33][4]Peer review and editorial policies
The Journal of Applied Physics utilizes a single-anonymized peer review process, in which the identities of reviewers remain confidential to authors while authors' identities are known to reviewers. Manuscripts undergo initial screening by the Editor-in-Chief or Deputy Editor for scope and basic criteria, followed by assignment to an Associate Editor who solicits at least two external expert reviewers if the submission advances to full review. The average duration for the first review round is approximately 1.6 months, with total handling time for accepted manuscripts around 2.3 months. Editors make final decisions based on reviewer recommendations, often resulting in editorial rejection for scope mismatch prior to external review.[4][35] Review criteria emphasize originality, timeliness, and significant advancement in applied physics, requiring thorough background discussion, sufficient data, rigorous analysis, and clear demonstration of noteworthy impact. Submissions must be written in clear English, well-organized, supported by high-quality figures, and properly referenced. The journal places strong emphasis on reproducibility, mandating that articles provide sufficient methodological details for replication and encouraging data deposition in repositories such as AIP's Figshare for supplementary materials.[4][36][37] Ethical policies align with the Committee on Publication Ethics (COPE) guidelines, prohibiting plagiarism through screening via iThenticate software and requiring authors to affirm originality without dual publication. Disclosure of author contributions is mandatory, with the corresponding author certifying approval from all co-authors and optionally noting equal contributions. Conflicts of interest, including those from industry funding, must be disclosed by authors, reviewers, and editors to ensure impartiality.[36][38] Authors receive one opportunity for major revisions following initial review, with minor revisions possible as needed; subsequent major revisions are rare. Appeals of editorial decisions are handled by the Editor-in-Chief and submitted via [email protected] in a concise format (maximum one page), focusing on suitability or technical flaws, and reviewed by at least two editors. Post-publication corrections, including errata and retractions, follow AIP's policy for transparency and integrity. For high-impact submissions not fully meeting Journal of Applied Physics standards, a fast-track transfer to the open-access AIP Advances is available, enabling publication within 14 days of transfer decision.[4][39][40]Publication details
Publisher and format
The Journal of Applied Physics is published by AIP Publishing, a wholly owned not-for-profit subsidiary of the American Institute of Physics (AIP), which was founded in 1931 and has managed the production, marketing, and distribution of scholarly journals in the physical sciences since its inception.[41][42] As a not-for-profit entity, AIP Publishing focuses on advancing scientific communication without profit motives, handling all aspects of journal operations including typesetting, formatting, and dissemination. The journal operates in a hybrid print and digital format, with articles available in both PDF and HTML versions for online access, while print editions are produced for institutional subscribers.[43] Each article is assigned a unique Digital Object Identifier (DOI) through CrossRef to facilitate persistent linking and citation.[44] Issues are numbered continuously within annual volumes—for instance, Volumes 137 and 138 cover 2025—with weekly online publication resulting in approximately 52 issues per year.[45] The production workflow encourages authors to submit manuscripts using LaTeX via the official AIP template on Overleaf or Microsoft Word, with final typesetting handled by the publisher; color figures have been provided free of charge since 2017, appearing in color online and in PDFs but in black and white in print.[31][46] Articles adhere to specific technical standards, including a structured format with a title, author affiliations, a single-paragraph abstract of up to 250 words (without equations, references, or citations), 5–8 keywords for indexing, and a reference list in AIP style using numbered citations (typically limited to around 50 for regular articles to promote conciseness).[31][47] For long-term preservation, all content is deposited in digital archives such as Portico and CLOCKSS, ensuring perpetual access even in the event of publisher discontinuation.[48]Access and distribution
In 2025, the Journal of Applied Physics operates under a fully open access model funded by subscriptions through AIP Publishing's Subscribe to Open (S2O) pilot, making all articles freely accessible worldwide at no cost to authors; the pilot will conclude at the end of 2025, after which the journal will transition to AIP Publishing's broader open access strategy.[22][6][23] Institutional subscriptions support this model and provide additional services through AIP Publishing's Scitation platform, which hosts the journal's articles in digital formats.[1] All articles published in 2025 are open access under a Creative Commons CC-BY license.[43] Distribution occurs primarily online via the Scitation platform, with print-on-demand options available for subscribers seeking physical copies. The journal supports global readership through these digital channels, which have been mobile-optimized since the platform's enhancements around 2012. AIP Publishing also facilitates institutional read-and-publish agreements compliant with cOAlition S (Plan S) requirements, allowing covered authors to publish open access without additional fees. For non-open access articles from prior years, the accepted manuscript can be self-archived immediately upon acceptance without an embargo period.[49][50]Metrics and reception
Impact metrics
The Journal of Applied Physics has an impact factor of 2.5 as reported in the 2024 Journal Citation Reports from Clarivate.[1] Its five-year impact factor stands at 2.7, reflecting sustained citation influence over a longer period.[1] Historically, the journal's impact factor peaked at 3.2 in 2022, with values stabilizing around 2.5-2.8 in recent years post-2020, indicating consistent performance amid evolving publication volumes in applied physics.[51] Additional metrics underscore the journal's reach and timeliness. The 2024 Immediacy Index is 0.7, measuring average citations in the year of publication.[1] The h-index is 359, signifying that 359 articles have each received at least 359 citations.[3] Over the period from 2020 to 2024, articles in the journal have averaged approximately 3 citations each within three years, highlighting moderate but steady scholarly engagement.[3] The journal has received a total of 145,178 citations as of the 2024 Journal Citation Reports.[1] In terms of rankings, the journal holds a Q2 position in the Physics, Applied category with a 2024 SCImago Journal Rank (SJR) of 0.58.[3] It ranks at the 46th percentile in the Physics, Applied category.[52] Comparatively, the journal's impact factor is lower than that of Applied Physics Letters (3.6 in 2024) but exceeds many specialized applied physics outlets, positioning it as a reliable mid-tier venue for broad applied research.[53]| Metric | Value (2024) | Source |
|---|---|---|
| Impact Factor | 2.5 | Clarivate JCR[1] |
| Five-Year Impact Factor | 2.7 | Clarivate JCR[1] |
| Immediacy Index | 0.7 | Clarivate JCR[1] |
| SCImago SJR | 0.58 (Q2) | SCImago[3] |
| h-index | 359 | SCImago[3] |
| Total Citations | 145,178 | Clarivate JCR[1] |