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Zeitschriftenartikel zum Thema „Bulletin of atomic scientists“

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Autor: Grafiati
Veröffentlicht am 27. Juli 2024
Zuletzt aktualisiert am 29. Juli 2024

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1

Slaney, Patrick David. „Eugene Rabinowitch, the Bulletin of the Atomic Scientists, and the Nature of Scientific Internationalism in the Early Cold War“. Historical Studies in the Natural Sciences 42, Nr. 2 (01.04.2012): 114–42. http://dx.doi.org/10.1525/hsns.2012.42.2.114.

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Eugene Rabinowitch intended the Bulletin of the Atomic Scientists to be an institution of scientific internationalism in the early cold war. He hoped that the Bulletin might serve, faute de mieux, as a site of international contact that would allow his vision of the scientific life to contribute to peace and stability in the shadow of the atomic bomb. Domestic anticommunists, however, envisioned the relation of science to national security and the role of the scientist quite differently. Protecting a sense of oneself as a scientist was consequently a feat of endurance, as Rabinowitch’s experience with the Bulletin shows.
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2

Styer, Michael. „The Bulletin of the Atomic Scientists: July/August 1997, Chicago“. Foreign Policy, Nr. 108 (1997): 170. http://dx.doi.org/10.2307/1149106.

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3

Lester, David. „The Threat of Nuclear War and Rates of Suicide and Homicide“. Perceptual and Motor Skills 75, Nr. 3_suppl (Dezember 1992): 1186. http://dx.doi.org/10.2466/pms.1992.75.3f.1186.

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4

Banks, Michael. „Doomsday clock edges closer to midnight“. Physics World 36, Nr. 3 (01.03.2023): 11ii. http://dx.doi.org/10.1088/2058-7058/36/03/15.

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5

Mecklin, John. „An innovative and determined future for the Bulletin of the Atomic Scientists“. Bulletin of the Atomic Scientists 76, Nr. 6 (01.11.2020): 277–79. http://dx.doi.org/10.1080/00963402.2020.1847442.

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6

Fikenscher, Sven-Eric. „Bulletin of the Atomic Scientists: Spotlight on Nuclear Modernization, Jg.75, Nr.1, Januar 2019.“ SIRIUS – Zeitschrift für Strategische Analysen 3, Nr. 2 (27.05.2019): 212–14. http://dx.doi.org/10.1515/sirius-2019-2025.

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7

Heefner, Gretchen. „Nuclear Accidents Will Happen“. Modern American History 2, Nr. 1 (11.02.2019): 111–15. http://dx.doi.org/10.1017/mah.2018.40.

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In January 2018, the Bulletin of the Atomic Scientists (BAS) moved its Doomsday Clock closer to midnight: it now reads 11:58. The last time the minute hand was this close to the hour of Armageddon was 1953, just after the United States and Soviet Union tested thermonuclear bombs. Since then the stylized clock has ticked backward and forward, each year metaphorically registering civilization's proximity to global catastrophe. “To call the world's nuclear situation dire,” the group warned in its January statement, “is to understate the danger—and its immediacy.”
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8

Zielinski, Chris, Kamran Abbasi, Parveen Ali, Virginia Barbour, Kirsten Bibbins-Domingo, Marcel GM Olde Rikkert, Peng Gong und Andy Haines. „Reducing the risks of nuclear war—the role of health professionals“. Kanem Journal Medical Sciences 17, Nr. 1 (20.06.2023): 1–3. http://dx.doi.org/10.36020/kjms.2023.1701.001.

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In January, 2023, the Science and Security Board of the Bulletin of the Atomic Scientists moved the hands of the Doomsday Clock forward to 90 s before midnight, reflecting the growing risk of nuclear war.1 In August, 2022, the UN Secretary-General António Guterres warned that the world is now in "a time of nuclear danger not seen since the height of the Cold War.2 The danger has been underlined by growing tensions between many nuclear armed states.1,3 As editors of health and medical journals worldwide, we call on health professionals to alert the public and our leaders to this major danger to public health and the essential life support systems of the planet—and urge action to prevent it.
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9

Browning, Gary L. „The Soviet Union Today. Edited by James Cracraft. Chicago: Bulletin of the Atomic Scientists, 1983. ix, 349 pp. $9.95, paper“. Slavic Review 44, Nr. 4 (1985): 734–36. http://dx.doi.org/10.2307/2498566.

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10

Schaefer, Dale W. „Engineered Porous Materials“. MRS Bulletin 19, Nr. 4 (April 1994): 14–19. http://dx.doi.org/10.1557/s0883769400039452.

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Rustum Roy recently observed that, operating from a finite number of elements, materials science faces an over-supply problem, too many scientists, and too few elements. Like all Malthusian dilemmas, relief is unlikely within the assumptions. Materials scientists, however, enjoy opportunities to develop new materials through morphological engineering of traditional substances. Carbon, after all, provided a century of progress for polymer chemists and a revolution in the manufacturing world. The trend from atomic- to molecular- to chain-level engineering can obviously be extended to mesostructure engineering and beyond. The tailoring of porosity is an example of such an extension.This issue of the MRS Bulletin examines the concept of engineered porosity from three perspectives. Smith, Hua, and Earl discuss characterization based on classic gas adsorption and more recent NMR and scattering methods. Two articles, one by Harold and Lee, and the other by Fain, look at the pore structure requirements for important applications, reactive separations and gas separation. Finally, the materials science of engineered porosity is discussed in four articles. Even describes emulsion-derived foams in which surface-active species impose micron-scale structure that is retained during polymerization. Shapovalov broadly reviews methods to introduce porosity in metals. Durian discusses recent work on relaxation phenomena in aqueous foams. Finally, I review the factors that control structure in mesoporous aerogels.
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11

Steckl, Andrew J., und John M. Zavada. „Photonic Applications of Rare-Earth-Doped Materials“. MRS Bulletin 24, Nr. 9 (September 1999): 16–20. http://dx.doi.org/10.1557/s0883769400053008.

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The elements of the lanthanide series, from Ce (atomic number 58) to Yb (atomic number 70), form a group of chemically similar elements that have in common a partially filled 4f shell. These so-called “rare earth” (RE) elements usually take on a 3+ ionic state (RE3+). Because the 4f electronic-energy levels of each lanthanide ion are shielded from external fields by 5s2 and 5p6 outer-shell electrons, RE3+ energy levels are predominantly independent of their surroundings.The characteristic energy levels of 4f electrons of the trivalent RE elements have been investigated in detail by Gerhard Heinrich Dieke and co-workers and were reported approximately 30 years ago. The Dieke diagram showing RE3+ energy levels is a familiar tool of scientists and engineers working with RE elements. However, the history of RE elements goes back to the year 1787 in the small Swedish town of Ytterby near Stockholm and to the gifted amateur mineralogist and military man Lt. Carl Axel Arrhenius. Arrhenius discovered an unusual black mineral in Ytterby (perceived initially as much rarer in occurrence and in concentration than the common ores or earths of aluminum, calcium, etc.). Many new elements were discovered by various chemists upon analysis of this black stone and others like it. The names given to these elements are variations of the location where the first discovery was made: yttrium, ytterbium, terbium, and erbium. The history of RE elements is fascinating and involves many other famous names in science: Berzelius, Gadolin, Bunsen.The properties of these elements and their multifaceted applications to science and industry are equally fascinating and have remained important to this day. Commercial applications of RE elements began after World War II, when their available quantity and purity were greatly enhanced by improved separation techniques developed as a part of the Manhattan Project. Until fairly recently, the main industrial application of RE elements has been in permanent magnets. The unpaired 4f electrons result in some RE elements having the highest magnetic moments of any element. The development and applications of RE magnets are reviewed in a very interesting article by Livingston3 in a previous MRS Bulletin issue. In this issue of MRS Bulletin, we have taken as our aim to review some of the properties and applications of RE elements relevant to photonics.
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Rundholz, Adelheid. „Unwelcome consequences: Christina Dalcher’s Vox and John Lanchester’s The Wall“. Crossroads. A Journal of English Studies, Nr. 37(2) (2022): 28–45. http://dx.doi.org/10.15290/cr.2022.37.2.02.

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The Bulletin of the Atomic Scientistsʼ Doomsday Clock, first introduced in 1947, recently movedthe fictional clock forward; it now rests at 100 seconds to midnight, or 100 seconds from destroying our selves. The numerous threats posed by nuclear weapons, pandemics, weaponized technology, and catastrophic climate change create an ʻenvironment of miseryʼ in which all action—and all inaction—is fraught with risk. Two recent novels employ dystopian visions of the United States and Britain, respectively, and explore the consequences of social engineering that takes place to minimize (perceived) risks and increase safety. Dalcherʼs Vox (2018) and Lanchesterʼs The Wall (2019) are two novels that are a commentary on a world in which risk is pervasive and in which (in)action can exacerbate dire circumstances. At the same time, the novels highlight that local (national) action is doomed to fail if it does not also consider the global interconnectedness of challenges and risks.
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13

Ross, Frances M. „Materials Science in the Electron Microscope“. MRS Bulletin 19, Nr. 6 (Juni 1994): 17–21. http://dx.doi.org/10.1557/s0883769400036691.

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This issue of the MRS Bulletin aims to highlight the innovative and exciting materials science research now being done using in situ electron microscopy. Techniques which combine real-time image acquisition with high spatial resolution have contributed to our understanding of a remarkably diverse range of physical phenomena. The articles in this issue present recent advances in materials science which have been made using the techniques of transmission electron microscopy (TEM), including holography, scanning electron microscopy (SEM), low-energy electron microscopy (LEEM), and high-voltage electron microscopy (HVEM).The idea of carrying out dynamic experiments involving real-time observation of microscopic phenomena has always had an attraction for materials scientists. Ever since the first static images were obtained in the electron microscope, materials scientists have been interested in observing processes in real time: we feel that we obtain a true understanding of a microscopic phenomenon if we can actually watch it taking place. The idea behind “materials science in the electron microscope” is therefore to use the electron microscope—with its unique ability to image subtle changes in a material at or near the atomic level—as a laboratory in which a remarkable variety of experiments can be carried out. In this issue you will read about dynamic experiments in areas such as phase transformations, thin-film growth, and electromigration, which make use of innovative designs for the specimen, the specimen holder, or the microscope itself. These articles speak for themselves in demonstrating the power of real-time analysis in the quantitative exploration of reaction mechanisms.The first transmission electron microscopes operated at low accelerating voltages, up to about 100 kV. This placed a severe limitation on the thickness of foils that could be examined: Heavy elements, for example, had to be made into foils thinner than 0.1 μm. It was felt that any phenomenon whose “mean free path” was comparable to the foil thickness would be significantly affected by the foil surfaces, and therefore would be unsuitable for study in situ. However, technology quickly generated ever higher accelerating voltages, culminating in the giant 3 MeV electron microscopes. At these voltages, electrons can penetrate materials as thick as 6–9 μm for light elements such as Si and Al, and 1 μm for very heavy ones such as Au and U.
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14

Schonbrun, Lester, Drasko Jovanovic, Rick Rozoff, Piotr Bein, Tod Mesirow, Susan Gordon, Eloi Glorieux et al. „Bulletin of Atomic Sociopaths?“ Bulletin of the Atomic Scientists 56, Nr. 4 (Juli 2000): 3–65. http://dx.doi.org/10.1080/00963402.2000.11456966.

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15

Khasanov, Mansur K. „Editorial board of the journal "Neurological Bulletin"“. Neurology Bulletin XXV, Nr. 1-2 (20.09.1993): 05. http://dx.doi.org/10.17816/nb105904.

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The Academy of Sciences of Tatarstan reacted with great attention and hope to the resumption of the publication of the journal Neurological Bulletin. We sincerely welcome its revival! The Kazan Medical School of Neurologists and Psychiatrists is remarkable for its achievements. The scientific merits of scientists in this field of medicine, their contribution to the development of science and practice are generally recognized. The rich traditions laid down within the walls of the university by the founder of experimental psychology in Russia, V.M. Bekhterev, whose work determined the further development of Russian neurology, the studies of his students and followers, give confidence that the pages of the journal will once again serve to expand and raise to a higher level. level of fundamental research.
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16

Taimasova, Y. V. „Liberals of the “Russian Bulletin” in the Late 1860s - Early 1880s: the Formation of Public-Political Program“. RUDN Journal of Political Science, Nr. 4 (15.12.2016): 145–54. http://dx.doi.org/10.22363/2313-1438-2016-4-145-154.

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The article analyzes the process of сonstruction of the ideological platform of the newspaper “Russian bulletin”. The newspaper “Russian bulletin” wasknown in the community as an independent and liberal. The author examines the personal composition of the editorial board and analyzes the political program of the newspaper. The initial program of the newspaper did not have a liberal character. Editor Skvortsov gave the newspaper liberal program. The intellectual newspaper team includes well-known economists - A.I. Chuprov and A.S. Postnikov. Scientists analyzed important questions of post-reform Russia. They did not copy the Western social model, but suggested a national path of development.
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17

Suri, Alka. „Commemorative Issue of DESIDOC Journal of Library and Information Technology on DRDO@60“. DESIDOC Journal of Library & Information Technology 38, Nr. 1 (02.01.2018): 3. http://dx.doi.org/10.14429/djlit.38.1.12477.

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<h3> DESIDOC Journal of Library and Information Technology (DJLIT) started in 1980 as DESIDOC Bulletin—a fourpage newsletter—basically to publish the activities of the DESIDOC. In the late 1980s, computers started revolutionising the working culture and information science and technology was the buzzword. The field of library and information science was also not left unchanged. </h3><p> In 1992, the Bulletin was renamed as DESIDOC Bulletin of Information Technology (DBIT). Information technology also changed the publishing scenario. Internet made dissemination of information easier and writers their own publishers. In 2006, Editorial Board of the Bulletin was revamped to include experienced LIS professionals; peer-evaluation of papers, which was earlier limited and institutional, was started involving professionals and academicians from outside; and the secondary information in DBIT was done away with. In 2008, DBIT became a primary research journal and was rechristened as DESIDOC Journal of Library and Information Technology (DJLIT). Since then, only primary research work, after peer-evaluation, is accepted for publication. Thematic issues on contemporary subjects have been brought out along with general issues. And in the same year, DJLIT adopted Open Journal System—an online journal publication management system. The system helped in fast processing of papers submitted for publication in the journal and access of the journal has become free online for the community. This issue of DJLIT is dedicated to the DRDO@60 includes 5 papers authored by scientists/officers of DRDO and 5 from outside DRDO. Scientists/Officers from DRDO have reported variety of topics in their key research areas. </p>
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18

Pasichnyk, Natalya, Renat Rizhniak und Hanna Deforzh. „Congresses of natural scientists and mathematicians in the “Bulletin of experimental physics and elementary mathematics” (1886–1917): Analysis of publications“. History of science and technology 13, Nr. 2 (23.12.2023): 280–310. http://dx.doi.org/10.32703/2415-7422-2023-13-2-280-310.

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The article presents the results of a study of publications in the “Bulletin of Experimental Physics and Elementary Mathematics”, about the organization, conduct and results of domestic and foreign congresses of mathematicians and natural scientists, published in Kyiv and Odesa during 1886–1917. The magazine was an unofficial periodical printed publication of the mathematical department of the Novorossiysk Society of Naturalists. The research was conducted with the aim of carrying out a meaningful and quantitative analysis of the texts of journal publications, which highlights the materials of such meetings of scientists and teachers. The authors used scientific methods for meaningful analysis of the research subject, and in the process of quantitative analysis – text quantification, collection of empirical data, their generalization and mathematical and statistical processing. As a result of the research of the magazine’s materials on congresses of mathematicians and natural researchers during the entire period of its publication, the authors came to the following conclusions. The magazine’s materials on conventions and congresses for all the years of its publication accounted for slightly more than 4% of its total area. All National Congresses of Natural Scientists and Mathematicians, which met during the period of publication of the journal, were covered on its pages (this is almost 2/3 of the entire volume of information in the journal about such meetings of scientists and teachers). At the same time, the methods of presenting information and its volume differed significantly in different meetings, depending on the presence of motives of both members of the editorial board. The main motives for placing information were: a) the presence of a pedagogical component in the work of meetings; b) scientific (or pedagogical) significance of reports and meeting participants; c) availability of quality materials about meetings; d) availability of magazine space. International congresses were irregularly covered by the newspaper, the motives for placing information about such meetings in the magazine were similar. Starting in 1901, the editors of the Bulletin introduced the scheme developed during the previous years of the magazine’s existence into the practice of presenting materials about scientific and pedagogical congresses: a) announcement of the event; b) publication of the regulation (statute, program) of the event; c) description of preparation for the event; d) overview of the features of the event; e) presentation of the texts of important speeches. Such a scheme of presentation of meetings was introduced for the first time in popular science and educational periodicals of the Russian Empire. The pedagogical component was the most important motive for both staffs of the Bulletin editorial board when deciding on the features and scope of coverage of materials on the work of domestic and foreign congresses. The materials of Bulletin (and other similar publications of that time) covering the work of domestic and foreign congresses of teachers and researchers of nature and mathematics, which reveal the content of the educational activities of famous scientists and teachers, are an important element of the source base of biographical studies, which conducted by historians of science.
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Zubairov, Dilyaver M., und Yu V. Popov. „Editorial board of the journal "Neurological Bulletin" from D.M. Zubairov“. Neurology Bulletin XXV, Nr. 1-2 (20.09.1993): 06. http://dx.doi.org/10.17816/nb105907.

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After 75 years, one of the most respected and oldest journals, the Neurological Bulletin, is returning to us. Its discovery in 1893 under the editorship of the prominent scientist V.M. Bekhterev is a special date in the history of both medical periodicals and neurology. For 26 years, it was published annually in 4 issues, despite historical cataclysms and financial difficulties. For a quarter of a century, a large readership has met on the pages of the journal with a wide variety of materials from the field of neurology, neuropathology and psychiatry. It published their work as well-known scientists and practitioners, lawyers.
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20

Ismagilov, M. F. „Kazan journal "Neurological Bulletin" named after V.M. Bekhterev turns 110“. Neurology Bulletin XXXV, Nr. 1-2 (20.04.2003): 76–77. http://dx.doi.org/10.17816/nb89678.

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In January 1893, the medical community in Russia received a new medical journal. It was "Neurological Bulletin", published in Kazan under the editorship of V.M. Bekhterev (Head of the Department of Psychiatry at Kazan University) as the organ of the Society of Neuropathologists and Psychiatrists. Having created one of the first in Russia (1892) society of neuropathologists and psychiatrists in Kazan, V.M. Bekhterev devoted a significant place to his publishing activity. According to the enlightenment of the outstanding scientist, the journal was to become (and has become such!) The main spokesman and conductor of his idea of ​​the unity of neurosciences, an incentive for their development, mutual enrichment and unification of various directions of scientists around the problems of neurology.
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21

Badash, Lawrence, und Joseph J. Ermenc. „Atomic Bomb Scientists: Memoirs, 1939-1945“. Technology and Culture 32, Nr. 2 (April 1991): 448. http://dx.doi.org/10.2307/3105750.

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22

Boorse, Henry A., Lloyd Motz, Jefferson Hane Weaver und Joseph F. Mulligan. „The Atomic Scientists: A Biographical History“. American Journal of Physics 58, Nr. 4 (April 1990): 415. http://dx.doi.org/10.1119/1.16466.

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23

JACOBY, MITCH. „STM TIPS SCIENTISTS ON ATOMIC DETAILS“. Chemical & Engineering News 76, Nr. 7 (16.02.1998): 27. http://dx.doi.org/10.1021/cen-v076n007.p027.

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24

Toniol, Rodrigo, und Miriam Grossi. „How Brazilian social scientists responded to the pandemic“. Horizontes Antropológicos 27, Nr. 59 (April 2021): 307–36. http://dx.doi.org/10.1590/s0104-71832021000100016.

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Abstract In this article, we propose a critical and situational assessment of Brazilian social scientists’ production on the COVID pandemic. We take stock of production within the context of the pandemic, yet also go further to sketch out some of the general characteristics of scientific production within Brazilian social sciences. Our major reference is a publication that, from within the social sciences, initiated an entire movement toward public reflections on the pandemic: the Social Scientists and Coronavirus Bulletin. It was published on a daily basis under the auspices of the National Association of Graduate Studies and Research in Social Sciences (Anpocs), in partnership with other scientific associations. We argue that social sciences’ reaction to the pandemic both engages and contrasts with the tradition of debates on health within our disciplines. We also offer a classification scheme for the wide range of texts written “in the heat of the moment” by social scientists, in their quest to understand the pandemic and its effects. Finally, we offer a brief and descriptive analysis of the Bulletin’s texts characteristics, unfolding into a larger discussion of the institutional transformations that have marked Brazilian social sciences.
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Oleynikov, Pavel V. „German scientists in the Soviet atomic project“. Nonproliferation Review 7, Nr. 2 (Juni 2000): 1–30. http://dx.doi.org/10.1080/10736700008436807.

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26

Kaiser, David, und Benjamin Wilson. „American scientists as public citizens: 70 years of theBulletin of the Atomic Scientists“. Bulletin of the Atomic Scientists 71, Nr. 1 (Januar 2015): 13–25. http://dx.doi.org/10.1177/0096340214563679.

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27

Pasichnyk, Natalya, Renat Rizhniak und Hanna Deforzh. „Biographical materials of mathematicians and natural scientists in “Bulletin of Experimental Physics and Elementary Mathematics” (1886–1917): meaningful and content analysis“. History of science and technology 12, Nr. 2 (16.12.2022): 279–301. http://dx.doi.org/10.32703/2415-7422-2022-12-2-279-301.

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The article presents the results of a study of the features of biographical and prosopographic materials about famous mathematicians and natural scientists, published in one of the most authoritative journals “Bulletin of Experimental Physics and Elementary Mathematics”, which was published in Kyiv and Odesa during 1886–1917. In fact, the journal was an unofficial periodical printed branch of the Mathematical Department of the Novorossiysk Society of Naturalists. The purpose of the study is to conduct a meaningful and content analysis of the texts of the journal articles, which reveal biographies, features of labor activity and participation in scientific research of famous scientists. At the same time, the authors used scientific methods to conduct a meaningful analysis of the subject of research – analysis and synthesis, generalization and systematization. In the process of quantitative content analysis, text quantification, empirical data collection, their generalization, and mathematical and statistical processing were used. As a result of the study of biographical materials of the journal over the period, its authors came to the following conclusions. Firstly, the materials of the journal about famous domestic and foreign mathematicians and natural scientists were both biographical and prosopographic in nature. Moreover, the motives for the appearance of such publications, as a rule, were “round” dates from the moment of birth, from the beginning of creative activity, from the moment an important work was released, or from the moment of death (or the fact of death) of the subject of publication. All such articles in the journal are conditionally classified by the authors into brief biographical and prosopographic notes, detailed biographical and prosopographic articles, and obituaries. Secondly, the total volume of biographical and prosopographic materials for the entire period of publication of the journal was 2.88% of the total volume of the journal. At the same time, the journal contained materials about 84 scientists. The largest journal volume by the editors (more than 5 pages for each) was provided by 27 scientists and this amounted to 72.7% of the total volume of biographical material; this group included 9 domestic scientists and 18 foreigners. In total, the editors allotted an average of 4.89 pages for each domestic scientist, and 5.89 pages for each foreign scientist. The largest volume of materials was about physicists (46.42% of the total volume of biographical materials) and mathematicians (35.44%). Thirdly, the results of a meaningful analysis allow us to conclude that the published biographical and prosopographic materials of the journal are of high quality. This was largely facilitated by the careful selection of the authors of articles (or sources of materials), as well as the special requirements of the editors for documenting sources of materials in paginated links. Fourthly, the “inattention” of the editorial staff of the journal to a number of “round dates” of famous domestic and foreign mathematicians and physicists, as well as the uneven volumes allocated by the journal for biographies, indicate the absence of a clear editorial policy of the journal in the issue of allocating printed volumes for systematic biographical statements and research.
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Barenberg, S. A., und E. P. Mueller. „Biomedical Materials“. MRS Bulletin 16, Nr. 9 (September 1991): 22–25. http://dx.doi.org/10.1557/s0883769400056001.

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Biomedical materials is an embryonic interdisciplinary science whose practitioners are scientists, engineers, biochemists, and clinicians who use synthetic polymers, metals, ceramics, inorganic, and natural polymers to fabricate artificial organs, medical devices, drug delivery systems, prosthetics, and packaging systems.The intent of this special issue of the MRS Bulletin is to provide readers with insight into current biomaterials research and product development. This issue is not meant to be either conclusive or definitive, but rather a “sound bite” of the field.For further information, please feel free to contact either the individual authors or the editors of this issue.
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Ferreira, P. J., K. Mitsuishi und E. A. Stach. „In Situ Transmission Electron Microscopy“. MRS Bulletin 33, Nr. 2 (Februar 2008): 83–90. http://dx.doi.org/10.1557/mrs2008.20.

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AbstractThe articles in this issue of MRS Bulletin provide a sample of what is novel and unique in the field of in situ transmission electron microscopy (TEM). The advent of improved cameras and continued developments in electron optics and stage designs have enabled scientists and engineers to enhance the capabilities of previous TEM analyses. Currently, novel in situ experiments observe and record the behavior of materials in various heating, cooling, straining, or growth environments. In situ TEM techniques are invaluable for understanding and characterizing dynamic microstructural changes. They can validate static TEM experiments and inspire new experimental approaches and new theories.
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Sobkin, Vladimir S., und Gleb D. Emelin. „Vygotsky's criticism of fascism in German psychology of the 1930s: political, socio-psychological and personal contexts“. Moscow University Psychology Bulletin, Nr. 3 (2023): 189–215. http://dx.doi.org/10.11621/lpj-23-33.

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Background. This study discusses one of the last Vygotsky`s works — the fourth chapter in «Fascism in Psychoneurology» bulletin (1934). Motivation of the author to write this text is analyzed in the broad context of sociopolitical and personal aspects of his life: general growth of sociopsychological tension, repressions that touched Vygotsky`s family in 1930s, personally significant Jewish question and antisemitism in nazi Germany. In addition, joint letter from R.N. Vygodskaya and L.S. Vygotsky to D.I. Vygodsky published for the first time. This letter mentioned the arrest of Vygotsky`s cousin L.I. Vygodsky. Objective. The aim of the study was to reconstruct personal meanings and circumstances of L.S. Vygotsky in writing a chapter for «Fascism in Psychoneurology» bulletin. Methods. Elements of source analysis, search and analysis of archival documents, theoretical analysis of literature on L.S. Vygotsky`s biography. Results. The analysis showed that Vygotsky and Luria`s criticism of Fascism in psychology is built around several topics: criticism of the basic anthropological idea of the Third Reich about the predestination of human development depending on «blood and race»; an analysis of the process of politicization and ideologization of science, exemplified by the concept of «Integrationstypologie» introduced by E.R. Jaensch, which Vygotsky criticizes; political self-defense of Soviet scientists against possible persecution; the issue of national self-determination of Soviet Jewish scientists. Conclusion. Authors of this article suggested that this work may be seen not only as a scientific criticism and assertion of humanistic values in psychology but also as an act of political self-defense from sanctions and persecution that took place during the second half of the 1930s.
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Richmond, Marsha L. „Women as Public Scientists in the Atomic Age“. Historical Studies in the Natural Sciences 47, Nr. 3 (01.06.2017): 349–88. http://dx.doi.org/10.1525/hsns.2017.47.3.349.

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With the onset of the atomic age in 1945, geneticists increasingly spoke out about how nuclear fallout and radiation impacted heredity and reproduction. The scholarship discussing post–World War II activism focuses almost exclusively on males, with little attention given to women who served as public scientists or the role gender played in gaining public trust and influencing policy makers. This paper examines two women, both trained in genetics, who became activists in the 1950s and 1960s to educate the public about the dangers radiation and wartime chemicals posed to the human germ plasm. In Genetics in the Atomic Age (1956), Charlotte Auerbach (1899–1994) described basic genetic principles to explain why radiation-induced mutations could be harmful. In Silent Spring (1962), Rachel Carson (1907–1964) drew on genetics to warn about the possible mutagenic properties of DDT along with other concerns. Both women fostered scientific literacy to empower an informed citizenry that could influence public policy. They appealed both to men and to the growing cadre of middle-class educated women, encouraging an expanded role for maternal responsibility: not only protecting families but also the well-being of all humankind. This essay is part of a special issue entitled THE BONDS OF HISTORY edited by Anita Guerrini.
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Mankowski, Trent A., Stephanie J. Slater und Timothy F. Slater. „An Interpretive Study Of Meanings Citizen Scientists Make When Participating In Galaxy Zoo“. Contemporary Issues in Education Research (CIER) 4, Nr. 4 (22.03.2011): 25. http://dx.doi.org/10.19030/cier.v4i4.4165.

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A particularly successful effort to engage the public in science has been to move the nearly countless galaxies imaged by the Sloan Digital Sky Survey to citizen scientists in a project known widely as Galaxy Zoo (URL; http://www.galaxyzoo.org). By examining the motivations, methods and appeal of Galaxy Zoo to the participating public, other models of citizen science might be purposefully formulated to take advantage of the success exhibited in Galaxy Zoo. In addition, we want to understand the reasons people engage in science in informal settings in order to better enhance teaching methods in formal settings. We pursued an investigation of the underlying reasons for the success of Galaxy Zoo revealed by inductively analyzing contributors posts and discussions through the accompanying Galaxy Zoo online bulletin board. Using a grounded theory approach, we learned that many of these motivations originate in the aesthetic power of astronomical images or the opportunity to become an empowered and contributing scientist, which Galaxy Zoo successfully harnesses, while not compromising the scientific value of the project.
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Sethi, Megan Barnhart. „Information, Education, and Indoctrination: The Federation of American Scientists and Public Communication Strategies in the Atomic Age“. Historical Studies in the Natural Sciences 42, Nr. 1 (01.02.2012): 1–29. http://dx.doi.org/10.1525/hsns.2012.42.1.1.

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Immediately following World War II, atomic scientists and their colleagues in other disciplines formed the Federation of American Scientists (FAS) and dedicated themselves to increasing public knowledge about atomic energy and the need for international control. FAS scientists began their campaign with faith in the role a well-informed public could play in a democracy. Recognizing their inexperience in public relations, scientists sought the assistance of social scientists and PR experts to help them communicate their message effectively. Confronting in their advisors’ recommendations a radically different conception of how to reach the public, FAS scientists faced a choice: relinquish their cherished self-image as objective experts and embrace techniques of indoctrination, or maintain their focus on informing or educating the public. Examining the Federation’s dilemma sheds new light upon the changing motivations and public communication strategies of scientists in post-World War II America.
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AMIROV, NAIL B. ,., ALEXANDER A. VIZEL, ZULFIA F. KIM, RENATA N. AMIROVA, SURIYA V. AMIRKHANOVA, MARIA A. DAMINOVA und ALINA I. KHAIRULLINA. „DYNAMICS AND INDICATORS OF DEVELOPMENT OF THE MEDICAL SCIENTIFIC AND PRACTICAL JOURNAL «BULLETIN OF CONTEMPORARY CLINICAL MEDICINE» OVER 5 YEARS (from 2018 to 2022)“. Bulletin of Contemporary Clinical Medicine 15, Nr. 6 (Dezember 2022): 7–16. http://dx.doi.org/10.20969/vskm.2022.15(6).7-16.

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Abstract. Introduction. In 2022, 15 years have passed, since the publication of the first issue of the journal of «Bulletin of Contemporary Clinical Medicine» in november 2008. Aim. To analyze the dynamics of the development of the journal «Bulletin of Contemporary Clinical Medicine» for a 5-year period, from 2018 to 2022, taking into account the materials of the previous analysis 2008-2018. Material and methods. A comparative analysis of all issues of the journal «Bulletin of Contemporary Clinical Medicine» issued during the study period. All documents and resources accompanying the journal were studied, including the journal website, the platforms https://e-library.ru and https://cyberleninka.ru, as well as the previous analysis published in issue 1 for 2018 (https://www.elibrary .ru/contents.asp?id=34834823). When studying the journal materials, the recommendations of the National Bibliographic Science Citation Database (RSCI), the Higher Attestation Commission under the Ministry of Education and Science of the Russian Federation, the Association of Science Editors and Publishers, and experts from the Scopus and Web of Science databases were taken into account. Results and discussion. Over the period covered by the journal more than 2,000 scientific papers were published under all the main headings of the journal. Among more than 2000 authors, scientists from various regions and cities of the Russian Federation prevailed, from more than 15 countries of the far and neighboring countries. According to the RSCI data for 2021 published on the e-library platform the impact factor of the journal was: two-year impact factor, taking into account citations from all sources = 0,592; five-year impact factor = 0,458. Among the journals on the subject of «Medicine and Healthcare» journal ranks 32nd out of 599 medical journals (SCIENCE INDEX) and 214th place out of 4258 scientific journals (overall rating of scientific journals, the index of the journal in the ranking = 1,838). Conclusion. The journal «Bulletin of Contemporary Clinical Medicine» is a highly significant, rapidly developing mass media on the subject of «Medicine and Healthcare». The strategy and dynamics of the journal’s development is assessed as positive.
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O’Shea, Donald C. „Those Ditsy Scientists!“ Optical Engineering 45, Nr. 7 (01.07.2006): 070101. http://dx.doi.org/10.1117/1.2221697.

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Voronkova, Daria Sergeevna. „The experience of computerized content analysis of articles of the journal "Bulletin of Finance, Industry and Trade" for 1917“. Историческая информатика, Nr. 3 (März 2023): 85–106. http://dx.doi.org/10.7256/2585-7797.2023.3.43663.

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The subject of the research is the materials of articles of the journal "Bulletin of Finance, Industry and Trade" for 1917 – the leading printing body of the Ministry of Finance. The methodological basis of the article was a computerized content analysis, which made it possible to fully reveal the information potential of the source. Special attention is paid to the construction of a representative system of semantic categories and indicators based on the frequency dictionary, which revealed thematic priorities and semantic accents in the entire array of issues of the "Bulletin ..." in the specified year. The analysis of the frequency of occurrence of the created categories (including joint ones) in dynamics by quarters is carried out. The interrelationships of the categories make possible conclusions based on the argumentation of the authors of the journal articles. The materials of Vestnik ... have previously attracted the attention of scientists, but only now, with the help of computerized content analysis, a hidden layer of information contained in it has been introduced into scientific circulation, which is the scientific novelty of the work. The content analysis showed that the journal "Bulletin of Finance, Industry and Trade" reflected the situation and processes in the socio-political sphere in the country and abroad that developed in the economy at the turning point of 1917, unfolding against the background of the ongoing First World War. The main core of the constructed system of semantic categories turned out to be financial issues in close connection with the industrial, trade and tax spheres, as well as problems caused by the war and growing in the economy and society.
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Vastag, B. „Scientists Concerned About Future of Atomic Bomb Survivors Project“. JNCI Journal of the National Cancer Institute 97, Nr. 6 (15.03.2005): 416–17. http://dx.doi.org/10.1093/jnci/97.6.416.

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Klotz, Irving M. „Captives of Their Fantasies: The German Atomic Bomb Scientists“. Journal of Chemical Education 74, Nr. 2 (Februar 1997): 204. http://dx.doi.org/10.1021/ed074p204.

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Ortiz, M., A. M. Cuitiño, J. Knap und M. Koslowski. „Mixed Atomistic–Continuum Models of Material Behavior: The Art of Transcending Atomistics and Informing Continua“. MRS Bulletin 26, Nr. 3 (März 2001): 216–21. http://dx.doi.org/10.1557/mrs2001.45.

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The recent development of microscopes that allow for the examination of defects at the atomic scale has made possible a more direct connection between the defects and the macroscopic response they engender (see, e.g., the December 1999 issue of MRS Bulletin).
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Zaidi, S. Waqar H. „Scientists as political experts: Atomic scientists and their claims for expertise on international relations, 1945–1947“. Centaurus 63, Nr. 1 (18.01.2021): 17–31. http://dx.doi.org/10.1111/1600-0498.12362.

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Cas, Raymond A. F. „IAVCEI: from small beginnings to a vibrant international association“. History of Geo- and Space Sciences 10, Nr. 1 (16.04.2019): 181–91. http://dx.doi.org/10.5194/hgss-10-181-2019.

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Abstract. The International Association for Volcanology and Chemistry of the Earth's Interior (IAVCEI) was formed following the end of World War I at the inaugural general assembly (GA) of the International Research Council in Brussels in 1919, where the International Union of Geodesy and Geophysics (IUGG) was constituted. IAVCEI was then known as the Section for Volcanology (SV) and was one of six scientific disciplines that made up IUGG. The first president of IAVCEI (or SV) was Annibale Riccò (Italy), its first two vice presidents were Alfred Lacroix (France) and Henry Washington (USA), and the first secretary-general (SG) was Alessandro Malladra (Italy). A secretariat office for SV was established in Naples, Italy, following the first IUGG and SV General Assembly in 1922, in Rome, Italy. At that meeting SV established its own scientific journal called Bulletin volcanologique, the first edition of which was published in 1924 with Alessandro Malladra as the editor. SV officially became the International Association for Volcanology (IAV) in 1933 at the 5th IUGG General Assembly in Lisbon, Portugal. At the 14th IUGG General Assembly in Zurich, Switzerland, in 1967, IAV was renamed IAVCEI in recognition of the importance of geochemistry and geochronology in understanding volcanic processes. Bulletin volcanologique was renamed the Bulletin of Volcanology in 1986, at the time that its editorial board was restructured to be more representative of the international community. IAVCEI became a fully democratic association in 1995 with the introduction of individual membership, which entitled members to nominate, be nominated and vote in the election of the IAVCEI Executive Committee. Although the IUGG By-Laws allowed scientists only from the union's member countries to hold various positions within IUGG, in 2015, the IUGG Council removed this restriction, and now a scientist who is a member of IAVCEI from any country can hold any position in IAVCEI, except the position of the president.
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Antonyuk, Tetyana, und Victoria Antonova. „PUBLISHING PRODUCTS OF THE UKRAINIAN FREE ACADEMY OF SCIENCES (UFAS) IN GERMANY FROM THE FUND OF VERNADSKY NATIONAL LIBRARY DEPARTMENT OF FOREIGN UKRAINISTICS“. Naukovì zapiski Nacìonalʹnogo unìversitetu "Ostrozʹka akademìâ". Serìâ Ìstoričnì nauki 1 (17.12.2020): 165–73. http://dx.doi.org/10.25264/2409-6806-2020-31-165-173.

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The study reveals the publications of the Ukrainian Free Academy of Sciences in Germany that are available in the fund of Foreign Ukrainistics Department of Vernadsky National Library of Ukraine and represent the process of its formation, activity, development, and the names of scientists whose efforts led to UFAS. Sources of funding the scientific institution and publishing opportunities was found out, and the book description of the documents along with their meaningful content was carried out. A significant number of documents published by UFAS reveal its scientific directions and opportunities. Through the efforts of UFAS in Germany, the scientific world has been replenished with dozens of important works which represent Ukrainian science. The review of UFAS publications was published in a separate series “UFAS Chronicle”, and the publication “UFAS Bulletin” published monthly reports on the activities of the institution. Some groups (sections) prepared their “Collections” for printing. Monographs on current research were being published. The first issue of the bibliographic journal “Ukrainian Bibliological News”, the main topics of which are bibliology, archival science and library science, was published in the series “Bibliography”. The magazine kept records of Ukrainian printed materials in exile, published articles-reviews of UFAS leading scientists, analyzed the history of the magazine and reviews of new books about the figures of the Ukrainian word. Separate editions were published in the same series. An important task of the activities of FUD is to open the fund and popularize the diaspora book culture. The foundations for the further development and activities of UFAS in Canada and the United States were laid precisely in Augsburg, Germany. By organizing a center for the preservation and development of Ukrainian science in Germany, Ukrainian scientists have launched activities to establish strong scientific ties with European scientists and made it possible to integrate Ukrainian science into the world.
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Dumé, Isabelle. „Attosecond X-ray spectroscopy ‘freezes’ atomic nuclei in place“. Physics World 37, Nr. 5 (01.05.2024): 9i. http://dx.doi.org/10.1088/2058-7058/37/05/10.

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Kliueva, V. P., und N. V. Mel’nikova. „TRAINING OF SPECIALISTS FOR THE SOVIET ATOMIC INDUSTRY IN THE MEMOIRS OF CONTEMPORARIES“. VESTNIK ARHEOLOGII, ANTROPOLOGII I ETNOGRAFII, Nr. 4(47) (30.12.2019): 202–11. http://dx.doi.org/10.20874/2071-0437-2019-47-4-17.

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The article considers the training of specialists, who worked in the Soviet atomic industry, covering the period from 1945 to the 1960s — from the initiation of the Soviet Atomic Project until the establishment of atomic energy as one of the leading branches of the Soviet industry. The present study is based on published memoirs of students majoring in atomic physics and biographical narrative interviews of atomic scientists who studied at the Lomonosov Moscow State University and the Moscow Engineering Physics Institute in the 1940s–1960s, conducted by one of the authors of the article. The training of atomic scientists consisted in the development of theoretical knowledge, as well as engineering and practical skills. The training was provided at various universities of the country, among which a prominent place was occupied by the Moscow State University, the Saint Petersburg State University, the Moscow Engineering Physics Institute and the Ural State Technical University along with the specialised faculties of other Soviet universities. The public mood (onset of the Cold War, romanticised image of an atomic scientist) and personal aptitudes of applicants (engineering and technical aptitudes) influenced the career choice. When selecting future atomic specialists, a number of «filters» were used, narrowing down the number of prospective candidates. Ideology, latent anti-Semitism and gender influenced student selection. The training of atomic scientists was conducted in secrecy, which was offset by various financial (high scholarship and, later, high salaries) and non-financial (being trained by outstanding scientists, professional fulfilment, patriotic feelings) incentives. The involvement of students during training in scientific and industrial activities resulted in an effective corps of atomic specialists. Following graduation, they worked in restricted-access cities (Arzamas-16, Chelyabinsk-70, etc.), as well as at research institutes exploring atomic issues.
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Melnikova, Natalia V. „SCIENTISTS IN THE SOVIET ATOMIC PROJECT: BETWEEN COMPULSION AND FREEDOM“. Ural Historical Journal 73, Nr. 4 (2021): 145–54. http://dx.doi.org/10.30759/1728-9718-2021-4(73)-145-154.

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Scientists of various specializations, status and citizenship took part in the Soviet atomic project, which required serious scientific research. Their scientific and organizational contribution has been described in scientific and popular publications. This paper considers the project’s social dimension, poorly reflected in the research literature. The chronology includes the period from 1945 to the second half of the 1950s. It was time between the beginning of the project’s active stage after a protracted start and its completion, when the main results had been achieved. Providing information on the scale of employment of scientists in the project, the article focuses on the question of how their work and life were built within the framework of this secret research. The study describes the specifics of scientists’ mobilization, explores restrictions, deprivations, threats and opportunities associated with their participation in the project; it also analyzes features of their dealing with authorities, the ratio between compulsion and trust, regime and freedom, stimulation and internal motivation, dependence and scientific autonomy. These aspects contribute to better understanding of the USSR atomic project phenomenon and its effectiveness, serve as a “magnifying glass” for observing the specifics of the scientific work organization, as well as the Soviet social space as a whole.
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Fiege, M. „The Atomic Scientists, the Sense of Wonder and the Bomb“. Environmental History 12, Nr. 3 (01.07.2007): 578–613. http://dx.doi.org/10.1093/envhis/12.3.578.

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47

Reiche, Hans. „Society of reliability engineers bulletin“. Microelectronics Reliability 32, Nr. 12 (Dezember 1992): 1779. http://dx.doi.org/10.1016/0026-2714(92)90276-q.

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Reiche, Hans. „Society of reliability engineers bulletin“. Microelectronics Reliability 32, Nr. 7 (Juli 1992): 1043. http://dx.doi.org/10.1016/0026-2714(92)90442-n.

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Reiche, Hans. „Society of reliability engineers bulletin“. Microelectronics Reliability 33, Nr. 10 (August 1993): 1627. http://dx.doi.org/10.1016/0026-2714(93)90114-e.

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Reiche, Hans. „Society of reliability engineers bulletin“. Microelectronics Reliability 33, Nr. 4 (März 1993): 615–16. http://dx.doi.org/10.1016/0026-2714(93)90328-v.

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