Annalen der Physik
Annalen der Physik is one of the world's oldest and most prestigious peer-reviewed journals in physics, originally founded in 1790 as Journal der Physik by Friedrich Gren in Halle, Germany, and renamed Annalen der Physik in 1799 under editor Ludwig Wilhelm Gilbert.[1] It has played a pivotal role in the development of modern physics by publishing seminal works, including Max Planck's 1901 paper introducing quantum theory, Albert Einstein's four groundbreaking Annus Mirabilis papers in 1905 on special relativity, the photoelectric effect, Brownian motion, and the equivalence of matter and energy, as well as Erwin Schrödinger's 1926 formulation of wave mechanics.[1] Throughout its history, the journal underwent several name changes to reflect evolving scientific focus, such as Annalen der Physik und der physikalischen Chemie from 1819 to 1824 and Annalen der Physik und Chemie from 1824 to 1900, before reverting to its current title in 1900.[1] Notable editors have included Johann Christian Poggendorff (1824–1876), who expanded its scope; Paul Drude (1899–1906); Max Planck, who served as co-editor from 1906 to 1947; and Wilhelm Wien (1906–1928), all of whom contributed to its reputation as a leading venue for experimental and theoretical physics during the 19th and early 20th centuries.[1] From 1850 to 1920, Annalen der Physik was the preeminent physics journal in Germany and internationally, fostering advancements in fields like electromagnetism, thermodynamics, and atomic theory.[1] Today, published by Wiley-VCH, the journal continues to cover a broad spectrum of physics, from fundamental research in quantum mechanics and gravitation to applied areas like materials science and photonics, maintaining an impact factor of 2.5 and a CiteScore of 4.4 as of 2024.[2] With an acceptance rate of 28% and rapid submission-to-decision times averaging 4 days, it remains a vital platform for high-quality original research and reviews in the global physics community.[2]Overview
Publication Information
Annalen der Physik was founded in 1799 by Ludwig Wilhelm Gilbert in Halle, Germany, as a continuation of the earlier Journal der Physik established by Friedrich Gren in 1790, marking it as one of the oldest continuously published physics journals.[1] The journal has maintained continuous volume numbering since its inception, reaching over 500 volumes by 2025, with the current series at volume 537.[3] The journal is published by Wiley-VCH, which assumed publishing responsibilities in 1998 following a period under J.A. Barth from 1809 to 1992 and a brief transition with Hüthig GmbH.[1] It appears in monthly issues, providing regular outlets for research across physics disciplines.[4] The print ISSN is 0003-3804, while the online ISSN is 1521-3889, facilitating both traditional and digital access.[2] Originally published exclusively in German, reflecting the language's prominence in 19th- and early 20th-century science, Annalen der Physik transitioned to English-only publication starting with its eighth series in 1992 to broaden its international reach.[1] As of 2025, Stefan Hildebrandt serves as Editor-in-Chief, overseeing submissions in American English.[5]Editorial and Scope
Annalen der Physik maintains a broad multidisciplinary scope encompassing all fields of physics, from fundamental theoretical advancements to experimental and applied research across areas such as quantum mechanics, condensed matter physics, optics, photonics, high-energy physics, cosmology, biophysics, and environmental physics.[6][7] The journal emphasizes originality, scientific rigor, and contributions that advance significant progress while appealing to an interdisciplinary audience beyond narrow specialists.[8] Its target readership includes researchers, academics, and students in physics and related disciplines seeking high-impact, broadly relevant work.[8] The peer-review process is rigorous and double-blind, involving at least two independent referees to evaluate manuscripts for novelty and interdisciplinary relevance, with decisions guided by referee feedback and limited to a maximum of two revision rounds.[6] Submissions must be original, unpublished, and not under consideration elsewhere, accompanied by a cover letter affirming author consent and ethical compliance.[6][8] Accepted article types include primary research articles reporting significant advances, invited review articles synthesizing key developments, perspectives on emerging topics, rapid research letters for timely findings, and special issues dedicated to cutting-edge themes.[7][8] , incorporating figures, tables, and supplementary materials as needed, with abstracts limited to 200 words.[9][8] The journal operates a hybrid open access model, allowing authors to publish behind a subscription paywall or opt for immediate open access by paying an article processing charge of $3,840, thereby increasing visibility and citation potential.[10][11] Following its 2012 relaunch, the scope expanded to better reflect contemporary physics challenges while preserving its tradition of excellence.[7]Historical Development
Founding and Predecessors
The predecessor publications to Annalen der Physik were Journal der Physik (1790–1794) and Neues Journal der Physik (1795–1797), both founded by Friedrich Albrecht Carl Gren in Halle, Germany, to disseminate advancements in natural sciences.[12][1] These journals built on earlier models like Lorenz von Crell's Crell’s Annalen (1778), a chemical periodical, and quickly became prominent in German scientific circles for sharing experimental findings in physics and related fields.[13] Following Gren's death in 1798, Ludwig Wilhelm Gilbert, a mathematician, geographer, and professor at the University of Halle, established Annalen der Physik in 1799 in Leipzig as Annalen der Physik zur Beförderung der Naturgeschichte und der Chemie.[1][13] The journal's inaugural volume appeared that year, published by Rengersche Buchhandlung in Halle, with Gilbert serving as the first editor until 1824, during which he oversaw 76 volumes and often translated and adapted foreign contributions for broader accessibility.[1][13] From its inception, Annalen der Physik emphasized natural philosophy, chemistry, and early experimental physics, including topics such as thermodynamics, electricity, and magnetism, while aiming to bridge amateur and professional audiences.[13] Early issues reflected a commitment to rigorous, didactic presentation of European research. Initially distributed mainly in German-speaking regions through Rengersche Buchhandlung (1799–1808) and later Johann Ambrosius Barth (from 1809), the journal attracted contributions from scientists across Europe, fostering a continental network of exchange.[1][13]Key Periods and Interruptions
Under the editorship of Johann Christian Poggendorff from 1824 to 1877, Annalen der Physik experienced significant expansion, with the journal renamed Annalen der Physik und Chemie and producing 160 volumes that established it as a premier outlet for experimental and theoretical physics contributions.[1] This period marked the journal's growth into a leading international publication, particularly from the mid-19th to early 20th century, as it prioritized original research amid the rapid advancement of physical sciences.[1] Publication of Annalen der Physik was interrupted during World War II, ceasing entirely from 1944 to 1946 due to the closure of the J.A. Barth publishing house amid wartime conditions in Germany.[1] The journal resumed operations on August 1, 1946, following approval from Soviet military authorities in the occupied zone, initiating its sixth series and initially based in East Germany with annual outputs of 500 to 1,000 pages, though subject to restrictions on sensitive topics like nuclear physics.[1][14] Further disruptions occurred in the early post-war years due to political and publishing challenges in divided Germany, following the death of editor Friedrich Möglich in 1957, which prompted the start of a new seventh series under Gustav Richter.[1] The 1990 German reunification led to operational mergers and restructuring by 1992, when Hüthig GmbH assumed publishing responsibilities, launching the eighth series and transitioning to English-language publications to unify East and West German scholarly traditions.[1] In 2012, Annalen der Physik underwent a major relaunch with a new editorial board led by Guido W. Fuchs, an in-house team, and an expanded scope to encompass contemporary areas such as applied physics, while discontinuing the traditional series numbering to reflect its revitalized focus.[1][15][13]Evolution of Editorship
The editorship of Annalen der Physik began with Ludwig Wilhelm Gilbert, who served from 1799 to 1824 and edited 76 volumes, establishing the journal's focus on experimental physics and translations from foreign languages, which broadened its international appeal.[16] Gilbert's tenure laid the groundwork for the journal's reputation as a comprehensive physics resource.[16] Johann Christian Poggendorff succeeded Gilbert in 1824 and edited until 1877, overseeing 160 volumes and renaming the journal Annalen der Physik und Chemie to reflect an expanded scope including chemistry.[16] Under Poggendorff, the emphasis shifted toward original research contributions, significantly elevating the journal's prestige as a leading venue for German and European physicists.[16] Gustav Wiedemann took over from 1877 to 1899, refocusing exclusively on physics and fostering collaborations with the Physical Society of Berlin, which further solidified its authority in the field.[16] At the turn of the 20th century, Paul Drude edited from 1899 to 1906, introducing an advisory board to enhance peer review and publishing seminal works in quantum theory, thereby attracting high-profile submissions.[16] Wilhelm Wien and Max Planck then co-edited from 1907 to 1928, with Planck serving as an associate editor from 1895 to 1906 before his full role; their leadership during physics' "golden age" drew influential papers and maintained the journal's eminence amid rapid advancements in relativity and quanta.[16][17] In the mid-20th century, Eduard Grüneisen edited from 1929 to 1949, navigating wartime disruptions—including a brief interruption from 1944 to 1946—to ensure continuity and rigor in publications.[16] Post-World War II, the journal experienced divided editorship due to Germany's partition: in the West, Friedrich Möglich served from 1946 to 1957 and Hans Kopfermann from 1952 to 1963, while in the East, Gustav Richter edited from 1957 into the 1990s, reflecting the geopolitical challenges that influenced content and distribution.[16] Following reunification, the editorship transitioned to a more international and collaborative model post-1990, with Bernhard Mühlschlegel from 1992 to 1998 and Ulrich Eckern from 1998 to 2011 guiding the shift toward English-language publications and digital accessibility to broaden global reach.[16] Since the 2010s, Stefan Hildebrandt has served as Editor-in-Chief, overseeing an expanded editorial board that emphasizes interdisciplinary physics and rigorous international peer review, enhancing the journal's contemporary prestige.[5] This evolution from individual editors to team-based structures has promoted diverse contributions and maintained high standards amid modern publishing demands.[16]Significant Publications
Early Contributions
One of the foundational contributions to electrical circuit theory appeared in the journal in 1845, when Gustav Kirchhoff, then a student at the University of Königsberg, published his seminal paper analyzing the behavior of currents in branched circuits. In this work, Kirchhoff derived two key laws that govern electrical networks: Kirchhoff's current law (KCL), which states that the algebraic sum of currents entering a node is zero (\sum I = 0), and Kirchhoff's voltage law (KVL), which states that the algebraic sum of voltages around any closed loop is zero (\sum V = 0). These principles, rooted in the conservation of charge and energy, provided a systematic framework for solving complex circuit problems and extended Ohm's law to networks with multiple branches.[18] In the realm of thermodynamics, Rudolf Clausius made pivotal advances through a series of papers in the 1850s, notably his 1850 publication "Über die bewegende Kraft der Wärme, und die Gesetze, welche sich daraus für die Wärmelehre selbst ableiten lassen." This work formulated the second law of thermodynamics, asserting that heat cannot spontaneously flow from a colder body to a hotter one without external work, or equivalently, that the entropy of an isolated system never decreases. Clausius later introduced the concept of entropy in 1865. His analysis of heat engines and reversible processes established a mathematical basis for understanding energy transformations, resolving inconsistencies in earlier caloric theories and laying the groundwork for modern thermodynamics.[19] Contributions to optics, electromagnetism, and measurement standards were advanced by Wilhelm Weber in the 1830s and 1840s, including his collaboration with Carl Friedrich Gauss on absolute units for magnetic measurements. Their 1833 paper in the journal introduced the absolute system of units, defining magnetic intensity in terms of fundamental mechanical quantities like length, mass, and time, thereby eliminating reliance on arbitrary scales. Weber's subsequent works, such as his 1846 memoir on electrodynamic measurements, further refined units for electric currents and forces, enabling precise experimental quantification of electromagnetic interactions.[20] Throughout the 19th century, volumes of Annalen der Physik from the 1820s to the 1890s regularly featured experimental reports on electricity and magnetism, such as detailed investigations into galvanic currents, induction phenomena, and magnetic field distributions, often including apparatus designs and quantitative data from laboratories across German states. These publications exemplified rigorous empirical methods, with examples like reports on the deflection of magnetic needles by electric currents in the 1830s volumes and precision measurements of resistance in the 1870s issues.[1] Collectively, these early publications in Annalen der Physik established rigorous standards for physics reporting in German academia, emphasizing mathematical precision, experimental reproducibility, and theoretical integration, which influenced subsequent generations of researchers and solidified the journal's role as a cornerstone of classical physics discourse.[1]Revolutionary Papers in Physics
One of the most pivotal publications in the journal's history was Max Planck's 1901 paper, "Ueber das Gesetz der Energieverteilung im Spectrum," which introduced the concept of energy quanta to resolve discrepancies in blackbody radiation spectra. In this work, Planck proposed that energy is emitted or absorbed in discrete packets, expressed as E = h\nu, where E is the energy, h is Planck's constant, and \nu is the frequency of the radiation. This hypothesis marked the birth of quantum theory, challenging classical physics by suggesting that radiation behaves in a particulate manner at the atomic scale. Wilhelm Wien's earlier contribution provided a key foundation for Planck's breakthrough through his displacement law, formulated in 1893. The law states that the wavelength at which blackbody radiation peaks, \lambda_{\max}, satisfies \lambda_{\max} T = b, where T is the temperature and b is Wien's constant (approximately 2.897 × 10^{-3} m·K). This relation, derived from experimental data on thermal radiation, highlighted limitations in classical theories and paved the way for quantum explanations of spectral distribution.[21] The year 1905, known as Albert Einstein's annus mirabilis, saw four groundbreaking papers published in Annalen der Physik, each advancing core areas of physics. In "Über einen die Erzeugung und Verwandlung des Lichtes betreffenden heuristischen Gesichtspunkt," Einstein extended Planck's quantum idea to light, proposing that photons carry energy E = h\nu - \phi, where \phi is the work function, to explain the photoelectric effect. His paper "Über die von der molekularkinetischen Theorie der Wärme geforderte Bewegung von in ruhenden Flüssigkeiten suspendierten Teilchen" provided theoretical support for atomic theory through an analysis of Brownian motion, predicting observable particle displacements consistent with molecular kinetics. The seminal "Zur Elektrodynamik bewegter Körper" introduced special relativity, resolving inconsistencies in electromagnetism by positing that the speed of light is constant, leading to transformations of space and time. Finally, "Ist die Trägheit eines Körpers von seinem Energieinhalt abhängig?" derived the mass-energy equivalence E = mc^2 from relativistic principles, demonstrating that energy and mass are interchangeable. In the 1930s, Lise Meitner contributed significantly to nuclear physics through papers in Annalen der Physik, including her 1937 work on beta decay processes in artificially produced elements beyond uranium. These studies explored the energy spectra and transformation chains of heavy nuclei under neutron irradiation, laying groundwork for understanding nuclear reactions and stability. Meitner's analyses revealed patterns in radioactive decay that challenged existing models of nuclear structure.[22] The journal's high publication volume in 1905, spanning 20 issues and featuring contributions from leading international researchers, reflected its growing prestige as a venue for cutting-edge theoretical work.[23] This surge attracted submissions from physicists worldwide, amid rapid advancements in atomic and electromagnetic theories.[24] These papers collectively established foundational principles of quantum mechanics and relativity, with Planck's and Einstein's 1905 works cited over 10,000 times each in subsequent literature, influencing developments from atomic models to nuclear energy.[25] Their enduring impact reshaped 20th-century physics, enabling technologies like semiconductors and confirming experimental predictions across scales.[26]Contemporary Role
Current Operations and Impact
Since its relaunch under Wiley-VCH in 2012, Annalen der Physik has maintained a broad scope encompassing fundamental and applied physics, with explicit inclusion of emerging fields such as nanotechnology, biophysics, and computational physics to reflect advancements in interdisciplinary research.[7][1] The journal emphasizes original contributions that demonstrate significant progress, covering topics from condensed matter and quantum physics to photonics and materials science, ensuring relevance to contemporary challenges in these areas.[27] The journal operates with an international editorial team and a diverse pool of peer reviewers drawn from a global panel of scientists, facilitating contributions from researchers in over 50 countries, including leading nations like China, Germany, the United States, Russia, France, and India.[6][28] Submissions undergo rigorous peer review by at least two independent referees, resulting in an acceptance rate of approximately 28% and an average of 4 days from submission to the first editorial decision, supporting efficient dissemination of high-quality work.[2] Recent special issues have highlighted cutting-edge topics, such as collective and nonlinear phenomena in confined quantum systems, underscoring the journal's role in fostering discussions on quantum technologies.[29] Annalen der Physik continues to leverage its historical prestige—stemming from seminal publications like those in 1905—to influence modern physics education and policy, with its papers cited in curricula and informing advancements in areas like quantum information and materials for sustainable technologies.[2] In response to evolving publishing landscapes, the journal has shifted to a digital-first model, offering hybrid open access options that allow authors to make articles freely available while navigating broader debates on accessibility and funding in scientific publishing.[8] This adaptation ensures sustained global impact amid increasing emphasis on open science principles.[30]Accessibility and Digital Resources
The journal Annalen der Physik is hosted on the Wiley Online Library digital platform, providing access to its content since 1997 with features including full-text search capabilities and stable DOI resolution, such as the base identifier doi:10.1002/(ISSN)1521-3889.[2] This platform ensures seamless navigation across volumes, supporting scholarly research in physics through integrated metadata and citation tools.[2] The archive offers complete digitization of issues dating back to 1799, encompassing the journal's foundational volumes and incorporating content from predecessor publications like Journal der Physik (1790–1794) and Neues Journal der Physik through collaborative digitization partnerships with institutions such as HathiTrust and Gallica.[31][32] These efforts have transformed the historical record into a searchable digital collection, preserving original German-language texts and illustrations for contemporary analysis.[33] Access to Annalen der Physik includes a growing repository of open access articles published under Creative Commons licenses, alongside subscription-based options for institutions and individuals, reflecting a hybrid model that balances immediate free availability with comprehensive archival access.[10] This approach has expanded free content over time, particularly for recent high-impact papers, while maintaining paywalled access to the full historical corpus.[10] Supplementary resources enhance user engagement with the journal's legacy, including a historical timeline hosted by the University of Augsburg that outlines key milestones from 1799 onward, accompanied by links to scanned originals of early table of contents and select issues.[34] These materials provide contextual depth, such as editorial transitions and thematic evolutions, without duplicating the primary archive.[35] User tools on the Wiley platform include advanced search functionalities allowing queries by author, topic keywords, publication date, or even mathematical equations within full-text content, facilitating precise retrieval across the 225-year span.[2] Additionally, the platform integrates with mobile-optimized interfaces, enabling access via standard web browsers on devices without a dedicated journal-specific app.[2] Preservation efforts safeguard the digital archive through backups in repositories like Portico and CLOCKSS, ensuring long-term availability and recovery in the event of technical disruptions or platform changes.[36] These independent archives maintain bit-level integrity and metadata standards, supporting perpetual access for global research communities.[37]Indexing and Recognition
Abstracting Services
Annalen der Physik is indexed in several major abstracting and indexing services, enhancing its discoverability in academic research. Key databases include Scopus, maintained by Elsevier, which provides comprehensive coverage of the journal's articles.[27] The Web of Science platform, through its Science Citation Index Expanded (SCIE) from Clarivate Analytics, also indexes the journal, supporting citation tracking and analysis.[38] INSPEC, produced by the Institution of Engineering and Technology (IET), covers physics and engineering content from the journal.[38] Additionally, MathSciNet, from the American Mathematical Society, indexes mathematically oriented physics papers published in the journal.[38] For discipline-specific indexing, Annalen der Physik is abstracted in Physics Abstracts, which is integrated into INSPEC, facilitating searches in applied physics topics.[39] The Chemical Abstracts Service (CAS), operated by the American Chemical Society, includes interdisciplinary papers that overlap with chemistry, such as those on materials science.[38] These services ensure broad accessibility across physics subfields and related disciplines. Coverage in these databases extends to historical volumes, with Scopus providing indexing from 1799 to 1943, 1947 to 1950, 1952, and 1957 to the present, reflecting the journal's publication history including wartime interruptions.[27] Metadata for all articles, including older ones, is available, supporting retrospective research. INSPEC's archive covers volumes from 1899 to 1968, with ongoing inclusion for recent issues.[39] Updates for recent issues occur in real-time through publisher feeds, while archival content is refreshed quarterly to incorporate new metadata or digitizations.[38] The standard ISO 4 abbreviation for citations is Ann. Phys. (Berl.), used in bibliographic references to distinguish it from other physics journals. This journal integrates seamlessly with general search engines like Google Scholar, which crawls and indexes its full content for open discovery. For physics-related biology crossovers, select articles appear in PubMed, enabling interdisciplinary searches in biomedical contexts.Bibliometric Metrics
Annalen der Physik maintains a solid academic standing in the field of physics, as evidenced by its bibliometric indicators from major databases. These metrics, updated as of 2025, reflect the journal's consistent influence in publishing high-quality research across multidisciplinary physics topics.[2] The journal's Impact Factor stands at 2.5, according to the 2024 Journal Citation Reports released in 2025 by Clarivate Analytics, indicating that articles published in 2022 and 2023 received an average of 2.5 citations each in 2024.[40] Its 5-year Impact Factor is 2.4, which accounts for citations over a longer window and underscores sustained citation trends beyond immediate impacts.[11] The h-index of the journal is 78, meaning that 78 articles have received at least 78 citations each, a measure that highlights the enduring productivity and citation impact of its publication corpus.[27] In terms of prestige, the SCImago Journal Rank (SJR) is 0.563 for 2024, placing it in the Q2 quartile within the Physics (miscellaneous) category, which evaluates journals based on the scientific influence of their average content.[27] From Scopus data, the CiteScore is 4.4, emphasizing citations received in the four years prior to 2024 and highlighting the journal's role in recent scholarly discourse.[2] Overall, Annalen der Physik ranks in the second quartile of physics journals, with particular strengths in quantum mechanics and condensed matter physics subfields, where it demonstrates competitive citation performance relative to peers.[41]| Metric | Value (2024) | Source | Interpretation |
|---|---|---|---|
| Impact Factor | 2.5 | Clarivate JCR 2025 | Average citations per article (2-year window) |
| 5-year Impact Factor | 2.4 | Clarivate JCR 2025 | Sustained citation average (5-year window) |
| h-Index | 78 | ScimagoJR | 78 highly cited papers |
| SJR | 0.563 (Q2) | ScimagoJR | Influence in Physics (miscellaneous) |
| CiteScore | 4.4 | Scopus | Recent citation emphasis (4-year window) |