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2021

  1. M. Adamson, R. Lalli, Global Perspectives on Science Diplomacy:, Exploring the Diplomacy-Knowledge Nexus in Contemporary Histories of Science, Centaurus, 63(1) 1-16 (2021)

  2. R. Lalli, Crafting Europe from CERN to Dubna: Physics as Diplomacy in the Foundation of the European Physical Society, Centaurus 63 (1) 103–131 (2021)

  3. S. Weinberg, On the development of effective field theory, European Physical Journal H, v. 46(1) p. (2021)

  4. B. Wu, Everett’s theory of the universal wave function, European Physical Journal H, v. 46(1) p. (2021)

2020
  1. C. Almeida, Stellar equilibrium vs. gravitational collapse, The European Physical Journal H, v. 45(1), p. 25-48 (2020)

  2. F. Amery, An attempt to trace illusions to their physical causes: Atmospheric mirages and the performance of their demystification in the 1820s and 1830s, The British Journal for the History of Science, 1-25 (2020)

  3. J. Behrman, The Personal is Professional: Margaret Maltby’s Life in Physics, Chapter in: C. Forstner, M. Walker (Eds), Biographies in the History of Physics, Springer, p. 37-57 (2020)

  4. G. Battimelli, A. La Rana, P. Rossi, Masters and students in Italian Physics between the 19th and 20th centuries: the Felici-Bartoli-Stracciati-Corbino case, The European Physical Journal H, v. 45(2-3), p. 107–121 (2020)

  5. R. Bertlmann, Real or not real that is the question, The European Physical Journal H, v. 45(2-3), p. 205–236 (2020)

  6. G. Campbell, A Black Life in Physics, APS Newsletter, 14(5) (2020)

  7. Л. Спасов, П. Витанов, Оценка на българския суровинен ресурс за хидротермално израстване на пиезоелектричен кварц, сп. Наука, 30(1) 54-58 (2020)

  8. J. Dudley, Light, Lasers, and the Nobel Prize, Advanced Photonics, Volume 2, Issue 5 (2020)

  9. M. Eckert, Ludwig Prandtl: Pioneer of Fluid Mechanics and Science Manager, Chapter in: C. Forstner, M. Walker (Eds), Biographies in the History of Physics, Springer, p. 75-87 (2020)

  10. F. Freitas, O. Freire Jr., I. Faria, Power Relations in Science: The Bohr and Wheeler-Everett Dialogue on the Foundations of Quantum Mechanics, Transversal (special issue), Historiography of Physics (8) 26-40 (2020)

  11. A. Genthon, The concept of velocity in the history of Brownian motion, European Physical Journal H, v. 45(1), p. 49–105 (2020)

  12. K. Hentschel, The ‘Invisible Hand’ of Carl Friedrich GauЯ—Retracing the Life of Moritz Meyerstein, a 19th century Instrument Maker and Universitдts-Mechanicus, Chapter in: C. Forstner, M. Walker (Eds), Biographies in the History of Physics, Springer, p. 13-36 (2020)

  13. B. Johnson, Charles Galton Darwin’s 1922 quantum theory of optical dispersion, European Physical Journal H, v. 45(1) p. 1–23 (2020)

  14. Г. Камишева, Д-р Димитър Мутев – живот и дейност, сп. Наука, 30(1) 62-65 (2020)

  15. H. Kono, Ryogo Kubo in his formative years as a physicist, The European Physical Journal H (v. 45), p. 175-204 (2020)

  16. H. Kragh, Venus has no moon, yet this moon was discovered in the 1700s, ScienceNordic, 3 June 2020.

  17. R. Lalli, R. Howey, D. Wintergrun, The Dynamics of Collaboration Networks and the History of General Relativity, 1925–1970, Scientometrics, 122(2), 1129-1170 (2020)

  18. R. Lalli, Crafting Europe from CERN to Dubna: Physics as Diplomacy in the Foundation of the European Physical Society, Centaurus, 1-29 (2020)

  19. E. Perez, Erwin Schrцdinger in the Second Spanish Republic 1934–1935, Chapter in: C. Forstner, M. Walker (Eds), Biographies in the History of Physics, Springer, p. 59-73 (2020)

  20. C. O’Raifeartaigh, Eddington, Lemaitre and the Hypothesis of Cosmic Expansion in 1927, in Arthur Stanley Eddington (ed. David Valls-Gabaud), Cambridge University Press (2020)

  21. C. O’Raifeartaigh, Redshifts vs Paradigm Shifts: Against Renaming Hubble’s law, Physics in Perspective (2020)

  22. C. O’Raifeartaigh, Einstein’s Oxford Blackboard: A Unique Historical Artefact, Physics in Perspective (2020)

  23. A. La Rana, P. Rossi, The blossoming of quantum mechanics in Italy: the roots, the context and the first spreading in Italian universities (1900–1947), European Physical Journal (H) Volume 45, Issue 4-5 p. 237-257 (2020)

  24. E. Scholz, Erratum to: E. Cartan’s attempt at bridge-building between Einstein and the Cosserats - or how translational curvature became to be known as torsion, European Physical Journal (H) Volume 45, Issue 4-5, 345-374 (2020)

  25. M. Taltavull, Rudolf Ladenburg and the first quantum interpretation of optical dispersion, The European Physical Journal H, v. 45(2-3), p. 123–173 (2020)

  26. R.Toma, N. Lederman, A Comprehensive Review of Instruments Measuring Attitudes Toward Science. Research in Science Education, 1-16 (2020)

  27. M. Waldschlagel, The Leibniz-Clarke Correspondence as a Case Study for the Historiography of Physics, Transversal (special issue), Historiography of Physics (8) 59-71 (2020)

2019
  1. V. d’Alessandro, S. Daliento, A. Naddeo, Searching for a response: the intriguing mystery of Feynman’s theoretical reference amplifier, The European Physical Journal H, 44(4-5) 331-347 (2019)

  2. L. Bonolis, G. Pancheri, A Tale of Two Scientists and the Development of Particle Colliders, Viewpoint (118) 7-9 (2019)

  3. B. Bowers, Charles Wheatstone, IoP History of Physics Newsletter (37) 10-23 (2019)

  4. J. Dainton, Gender diversity and equality in the last century, IoP History of Physics Newsletter (37) 6-8 (2019)

  5. O. Darrigol, The magic of Feynman’s QED: from field-less electrodynamics to the Feynman diagrams, The European Physical Journal H, 44(4-5) 349-369 (2019)

  6. E. Davis, The Fourth Baron Rayleigh, IoP History of Physics Newsletter (37) 76-85 (2019)

  7. Ch. Dewdney, David Bohm, IoP History of Physics Newsletter (37) 61-75 (2019)

  8. U. Dore, P. Loverre, L. Ludovici, History of accelerator neutrino beams, The European Physical Journal H, 44(4-5) 271-305 (2019)

  9. I. Falconer, Vortices and atoms in the Maxwellian era, Philosophical Transactions of the Royal Society. A, Mathematical, Physical and Engineering Sciences (377) 2158, 15 p. 20180451.

  10. J. Finney, John Desmond Bernal, IoP History of Physics Newsletter (37) 24-36 (2019)

  11. J. Frisvad, H. Kragh, On Ludvig Lorenz and his 1890 treatise on light scattering by spheres, The European Physical Journal H, 44(2) 137-160 (2019)

  12. M. Galvagno, G. Giribet, Luis Santalу and classical field theory, The European Physical Journal H, 44(4-5) 381-389 (2019)

  13. M. Huber, SOHO – the ESA / NASA Solar and Heliospheric Observatory, Part 2, The Corona, Coronal Holes and the Solar Wind, SPG Mitteilungen Communications de la SSP (57) (2019)

  14. J. Grozier, The Invisible Scanners, IoP History of Physics Newsletter (37) 37-45 (2019)

  15. H. Inaba, Father Yanase on the measurement problem of quantum mechanics: His life and physics, BUTSURI pp.792-794 (2019)

  16. H. Inaba, Teaching the history of physics: What, why, and how? Physics Education in University, pp.27-30 (2019)

  17. D. Kennefick, The Problem of Scientific Bias: The 1919 Astronomical Confirmation of Einstein’s Theory, in No Shadow of a Doubt, Princeton University Press (2019)

  18. D. Kennefick, No Shadow of a Doubt, Princeton University Press (2019)

  19. D. Levesque, J. Hansen, The origin of computational statistical mechanics in France, The European Physical Journal H, 44(1) 37-46 (2019)

  20. L. Lorenz, Light propagation in and outside a sphere illuminated by plane waves of light, The European Physical Journal H, 44(2) 77-135 (2019)

  21. M. Mareschal, From Varenna (1970) to Como (1995): Kurt Binder’s long walk in the land of criticality, The European Physical Journal H, 44(2) 161-179 (2019)

  22. D. Minenna, F. Andre, E. Duverdier, The traveling-wave tube in the history of telecommunication, The European Physical Journal H, 44(1) 1-36 (2019)

  23. J. Navarro, K. Tampakis, Science and Religion in Nineteenth-Cebtury Europe: Non-Anglo-American Perspectives, Zygon, 2019

  24. A. Pagano, E. Pagano, A note on Lorentz transformations and simultaneity in classical physics and special relativity, The European Physical Journal H, 44(4-5) 321-330 (2019)

  25. C. O’Raifeartaigh, Historical and Philosophical Aspects of the Einstein World, in Einstein and the Philosophy of General Relativity: Einstein Studies Vol 8. (eds D. Howard and J. Stachel) Birkhдuser (2019)

  26. D. C. Robinson, Gravitational and general relativity at King's Kollege London, European Physical Journal H, 44(3) 181-270 (2019)

  27. J. Ron, When Past Becomes Future: Physics in the 21st Century, Open Mind, BBVA, Madrid (2019) 1-29

  28. T. Sauer, Einstein’s working sheets and his search for a unified field theory, The European Physical Journal H, 44(4-5) 371-379 (2019)

  29. E. Scholz, E. Cartan’s attempt at bridge-building between Einstein and the Cosserats – or how translational curvature became to be known as torsion, The European Physical Journal H, 44(1) 47-75 (2019)

  30. N. Straumann, Hermann Weyl’s Space-Time Geometry and the Origin of Gauge Theory 100 Years ago, SPG Mitteilungen Communications de la SSP (57) (2019)

  31. A. Trautman, D. Salisbury, Memories of my early career in relativity physics, The European Physical Journal H, 44(4-5) 391-413 (2019)

  32. T. Taylor, H. Wenninger, A. Zichichi, LAA: a project using dedicated funding to develop technology for high-energy physics experiments, The European Physical Journal H, 44(4-5) 307-319 (2019)

  33. A. Trautman, D. Salisbury, Memories of my early career in relativity physics, The European Physical Journal H, 44(4-5) 391-413 (2019)

  34. D. Weaire, The Young lady and the Professor, IoP History of Physics Newsletter, IoP (37) 3-6 (2019)

  35. A. Whitaker, Henry Tizard, IoP History of Physics Newsletter, IoP (37) 46-60 (2019)

  36. J. Wilson, Kathleen Lonsdale, IoP History of Physics Newsletter, IoP (37) 86-94 (2019)

2018
  1. A. Assis, R. Karam, The free fall of an apple: conceptual subtleties and implications for physics teaching. In: European Journal of Physics, Bind 39, Nr. 3, 035003, 2018, s. 1-14

  2. M. Badino, J. Navarro, Introduction Ether. The Multiple Lives of a Resilient Concept, Ether and Modernity (2018) p. 1-13

  3. G. Battimelli, G. Ciccotti, Berni Alder and the pioneering times of molecular simulation, European Physical Journal H, 43(3) 303-335 (2018)

  4. J. Baars, Review of the evolution of large single dishes, IAU/URSI Working Group on Historic Radio Astronomy, General Assembly (2018) 1-16

  5. P. Briant, The CERN ISR and its Legacy, History of Particle Colliders, IoP History of Physics Newsletter, Special Issue (2018) 19-36

  6. D. Brill, A. Blum, The revival of general relativity at Princeton: daring conservatism, EPJ Web of Conferences, 168: 01013 (2018) 1-8

  7. A. Blum, R. Lalli, J. Renn, Gravitational waves and the long relativity revolution. Nature Astronomy, 2(7) 534-543 (2018)

  8. T. Christie, Simon Marius: Tabulae Directionum Novae - A First Approach, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 363-369 (2018)

  9. S. Deser, A brief history (and geography) of Supergravity: the first 3 week and after, The European Physical Journal H, 43(3) 281-291 (2018)

  10. P. Diamond, U. Frisch, Y. Pomeau, Editorial introduction to the special issue “Plasma physics in the 20th century as told by players”, The European Physical Journal H, 43(4-5) 337-353 (2018)

  11. W. Dick, Hans Philip Fuchs von Bimbach (ca. 1567–1626), Patron of Simon Marius, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 139-177 (2018)

  12. D. Escande, From thermonuclear fusion to Hamiltonian chaos, The European Physical Journal H, 43(4-5) 397-420 (2018)

  13. I. Falconer, Phases of physics in J.D. Forbes’ Dissertation Sixth for the Encyclopaedia Britannica (1856), History of Science. OnlineFirst, 26 p. (2018)

  14. H. Gaab, Concerning the Biography of Simon Marius (1573–1624), Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 55-138 (2018)

  15. C. Graney, An Astronomer Too Excellent: Simon Marius, the Telescope, and the Problem of the Stars During the Copernican Revolution, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 239-247 (2018)

  16. J. Hamel, Simon Marius’s Reports on the Comets of 1596 and 1618, in the Context of the Comet Research of His Times, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 205-221 (2018)

  17. A. Hasegawa, K. Mima, Strong turbulence, self-organization and plasma confinement, The European Physical Journal H, 43(4-5) 499-521 (2018)

  18. A. Helden, Prickard’s English Translation of Mundus Iovialis, Completed, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 387-388 (2018)

  19. A. Helden, A Word of Caution About the “Rehabilitation” of Simon Marius, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 413-416 (2018)

  20. M. Huber, SOHO – the ESA / NASA Solar and Heliospheric Observatory, Part 1, Overview, a Window into the Solar Interior, and SOHO’s Instruments, SPG Mitteilungen Communications de la SSP (56) (2018)

  21. H. Inaba, Introduction, Historia Scientiarum: International Journal of the History of Science Society of Japan, 28(1),pp.1-2 (2018)

  22. H. Inaba, Schlesinger's Energeticism: From Hypnosis to an Energetic Worldview, Historia Scientiarum: International Journal of the History of Science Society of Japan, 28(1),pp.36-53 (2018)

  23. P. Kalmus, The CERN Proton-Antiproton Collider Project, History of Particle Colliders, IoP History of Physics Newsletter, Special Issue (2018) 37-47

  24. R. Karam, Fresnel's original interpretation of complex numbers in 19th century optics, In: American Journal of Physics, Bind 86, Nr. 4, 01.04.2018, s. 245-249

  25. S. Katada, H. Inaba, N. Ariga, Japanese Physicists Who Studied in Germany: A Collective Analysis of their Stay and University Enrollment between 1893 and 1914, Bulletin of the National Science Museum Series E (Science and Engineering), 7-21 (2018)

  26. D. Kempkens, Georg Caesius as Official Court Astronomer of the Margrave Georg Friedrich of Brandenburg-Ansbach, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 179-189 (2018)

  27. M. Kikuchi, The large tokamak JT-60: a history of the fight to achieve the Japanese fusion research mission, The European Physical Journal H, 43(4-5) 551-577 (2018)

  28. A. Kostov, Professional associations of Balkan engineers until the First World War, Humanities and Social Sciences, 5(2) 155-167 (2018)

  29. R. Kremer, Simon Marius as a Tychonic Calendar Maker, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 321-362 (2018)

  30. H. Kubbinga, A Tribute to Max Planck, Europhysics News, 44(4) 27-30 (2018)

  31. J. Lacki, Joseph Fourier and Sadi Carnot: a counterpoint in 19th century study of heat, SPG Mitteilungen Communications de la SSP (56) (2018)

  32. J. Lacki, What states are: an appraisal from recent history, SPG Mitteilungen Communications de la SSP (54) (2018)

  33. G. Laval, D. Pesme, J. Adam, Wave-particle and wave-wave interactions in hot plasmas: a French historical point of view, The European Physical Journal H, 43(4-5) 421-458 (2018)

  34. P. Leich, In the Turmoil of the Early Seventeenth-Century Cosmology Debate: Simon Marius as a Supporter of the Tychonic System, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 249-271 (2018)

  35. P. Leich, Priority, Reception, and Rehabilitation of Simon Marius: From the Accusation of Plagiarism to the Marius-Portal as His Virtual Collected Works, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 389-412 (2018)

  36. M. Mareschal, Early years of Computational Statistical Mechanics, The European Physical Journal H, 43(3) 293-302 (2018)

  37. K. Matthaus, Simon Marius as a Calendar Writer, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 273-320 (2018)

  38. R. Meer, Intuitive und diskursive Vorstellungen. Uberlegungen zu einem Spannungsverhaltnis in der theoretischen Philosophie Immanuel Kants, Intuition und Wissenschaft, s. 87-98 (2018)

  39. T. Muller, The Franconian Asteroid 7984 Marius, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 437-447 (2018)

  40. J. Navarro, How to Use a Fundamental Discovery in Physics: The Early Days of Electron Diffraction, Science in Context (2018)

  41. J. Navarro, Electrones en casa. J.J. y G.P. Thomson, Revista Espaсola de Fisica 32(4) (2018) 43-49

  42. J. Navarro, Science contra Science. The Battle for Legitimate Knowledge in the Spanish Catholic Journals in the Early Twentieth Century, So what's new about Scholasticism? How Neo-Thomism helped shape the Twentieth Century (2018)

  43. D. Neuhauser (et al.), Sunspot Observations by Simon Marius, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 123-238 (2018)

  44. S. Niese, The early influence of Manchester on the work of George de Hevesy, Rutherford's Chemists, IoP History of Physics Newsletter, Special Issues, April 2018, p. 57-72

  45. B. Novosyadlyj, Century of A, European Physical Journal H, 43(3) 267-280 (2018)

  46. G. Pancheri, L. Bonolis, The path to high-energy electron-positron colliders from Wideroe's betatron to Touschek's AdA and to LEP, History of Particle Colliders, IoP History of Physics Newsletter, Special Issue (2018) 3-18

  47. J. Pasachoff, Simon Marius’s Mundus Iovialis and the Discovery of the Moons of Jupiter, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 191-203 (2018)

  48. R. Pausenberger, Planet Model 1: 50 Billion, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 449-454 (2018)

  49. A. Prickard, (et al.), The World of Jupiter, English Translation of Mundus Iovialis, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 1-53 (2018)

  50. P. Radvanyi, Marie and Pierre Curie and their Discoveries, Rutherford's Chemists, IoP History of Physics Newsletter, Special Issues, April 2018, p. 17-19

  51. P. Rebut, The Joint European Torus (JET), The European Physical Journal H, 43(4-5) 459-497 (2018)

  52. C. O’Raifeartaigh, S. Mitton, A new perspective on steady-state cosmology: from Einstein to Hoyle, In: Proceedings of the First International Conference on the History of Physics, (eds M. J. Cooper, E. A. Davis, P. M. Schuster and D. L. Weaire) Living Edition (2018) pp 241-268

  53. C. O’Raifeartaigh, S. Mitton, Interrogating the legend of Einstein’s ‘biggest blunder’, Physics in Perspective 20(4) 318–341 (2018)

  54. C. O’Raifeartaigh, M. O’Keeffe, W. Nahm, S. Mitton, One Hundred Years of the Cosmological Constant: From ‘Superfluous Stunt’ to Dark Energy, European Physical Journal (H) 44, 73–117 (2018)

  55. L. Richards, Frederick Soddy: Transmutation in Science and Society, Rutherford's Chemists, IoP History of Physics Newsletter, Special Issues, April 2018, p. 6-16

  56. D. Rickles, Geon Wheeler: From Nuclear to Spacetime physicist, The European Physical Journal H, 43(3) 243-265 (2018)

  57. R. Sagdeev, P. Diamond, An interview with Roald Sagdeev: his story of plasma physics in Russia, 1956–1988, The European Physical Journal H, 43(4-5) 355-397 (2018)

  58. J. Schlor, Translating the Mundus Iovialis into German, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 371-385 (2018)

  59. N. Schmidt (et al.), The Marius Portal: Simon Marius as Digital Human in the Twenty-First Century, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 417-436 (2018)

  60. P. M. Schuster, Former and future activities of ECHOPHYSICS, e-EPS, 26 March 2018; Europhysics news (3) p. (2018)

  61. P. M. Schuster, 3rd International Conference of History of Physics, e-EPS, 20 November 2018; Europhysics news (2018)

  62. G. Schvartz, J. Navarro, Imaging by touching: Atomic force microscopy, Philosophy of Photography (2018)

  63. O. Sinzev, “Sun, Moon, and Marius”, Chapter in H. Gaab, P. Leich (Eds.), Simon Marius and His Research, Springer, p. 455-460 (2018)

  64. N. Todd, Radioactive contamination of the laboratory notebooks of Sir William Ramsay and Frederick Soddy: historical and radio-archeological perspectives, Rutherford's Chemists, IoP History of Physics Newsletter, Special Issues, April 2018, p. 20-56

  65. F. Wagner, The history of research into improved confinement regimes, European Physical Journal H, 43(4-5) 523-549 (2018)

  66. W. Winkler, Fundamental research for the development of gravitational wave detectors in Germany, SPG Mitteilungen Communications de la SSP (54) (2018)

  67. Г. Камишева, Професор д-р Елисавета Карамихайлова (03.09.1897–22.04.1968), Списание на БАН (1) 48-57 (2018)

2017

  1. A. Blum, D. Giulini, R. Lalli, Editorial introduction to the special issue “The Renaissance of Einstein’s Theory of Gravitation”, European Physical Journal H (42) 95-105 (2017)

  2. A. Blum, T. Hartz, The 1957 quantum gravity meeting in Copenhagen: An analysis of Bryce S. DeWitt’s report, European Physical Journal H (42) 107-157 (2017)

  3. L. Bonolis, Stellar structure and compact objects before 1940: Towards relativistic astrophysics, European Physical Journal H (42) 311-397 (2017)

  4. B. S. DeWitt, Exploratory research session on the quantization of the gravitational field: At the Institute for Theoretical Physics, Copenhagen, Denmark, June-July 1957, European Physical Journal H (42) 159-176 (2017)

  5. P. Ford, Crystal Clear - Autobiographies of Sir Lawrence and Lady Bragg, IoP History of Physics Newsletter (35) 54-68 (2017)

  6. E. Gorg, Review of "Newton and Empiricism" by Zvi Biener and Eric Schliesser (eds). Journal for General Philosophy of Science, 48(1) 151–154 (2017)

  7. C. Hammond, On Prof. W. H. Bragg’s December 1914 Letter to the Vice-Chancellor of the University of Leeds, IoP History of Physics Newsletter (35) 34-53 (2017)

  8. J. Lacki, An EPS Historic Sites Award celebrating two Genevan physicists, SPG Mitteilungen Communications de la SSP (52) (2017)

  9. G. Kamisheva, Nestor Marcoff's Contribution to Bulgarian Physics and Mathematics Education, Biomath Communications (4) p. 36-50 (2017)

  10. R. Karam, F. Kneubil, M. Robilotta, Forces on a current-carrying wire in a magnetic field: the macro-micro connection. In: European Journal of Physics, Bind 38, 2017, s. 1-13

  11. D. Kennefick, The binary pulsar and the quadrupole formula controversy, European Physical Journal H (42) 293-310 (2017)

  12. J. L. Lebowitz, L. Bonolis, A life in statistical mechanics Part 1: From Chedar in Taceva to Yeshiva University in New York, European Physical Journal H (42) 1-21 (2017)

  13. L. Maiani, L. Bonolis, The LHC timeline: a personal recollection (1980-2012), European Physical Journal H (42) 475-505 (2017)

  14. L. Maiani, L. Bonolis, The Charm of Theoretical Physics (1958-1993), European Physical Journal H (42) 611-661 (2017)

  15. D. Monaldi, Fritz London and the scale of quantum mechanisms, Studies In History and Philosophy of Science Part B Studies In History and Philosophy of Modern Physics 60 (2017)

  16. J. Navarro, A. Mulberger, The promises of science. Historical perspectives, Centaurus (2017)

  17. J. Navarro, Promising redemption. Science at the service of secular and religious agendas, Centaurus (2017)

  18. J. Navarro, A. Blum, Ch. Lehner, On the history of the quantum. Introduction to the HQ4 special issue, Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics (2017)

  19. J. Navarro Loidi, Newton and the Spanish artillerymen” in: Reading Newton in early modern Europe Boran, Elizabethanne and Feingold, Mordechai (ed.), Leiden, Boston ed. Brill (2017) 64-88

  20. P. J. E. Peebles, Robert Dicke and the naissance of experimental gravity physics, 1957–1967, European Physical Journal H (42) 177-259 (2017)

  21. R. Pisano, P. Bussotti, Special Issue (Co-editor): Homage to Galileo Galilei 1564-2014 Reading Iuvenilia Galilean Works within History and Historical Epistemology of Science, Philosophia Scientiae 21(1) 7-15 (2017)

  22. C. O’Raifeartaigh, A new perspective on Einstein’s philosophy of cosmology, In: The Philosophy of Cosmology (Eds K.. Chamcham, J. Silk, J. D. Barrow and S. Saunders) Cambridge University Press (2017) pp 467-485

  23. C. O’Raifeartaigh, M. O’Keeffe, W. Nahm, S. Mitton, Einstein’s 1917 Static Model of the Universe: A Centennial Review, European Physical Journal (H) 42 (3) 431–74 (2017)

  24. F. Romeiras, Os colegios dos jesuitas e o ensino da fisica em Portugal (1858–1910), Gazeta de Fisica, Vol. 40, Fasciculo 1 (2017)

  25. D. Salisbury, K. Sundermeyer, Leon Rosenfeld’s general theory of constrained Hamiltonian dynamics, European Physical Journal H (42) 23-61 (2017)

  26. P. M. Schuster, Editorial – European physicists, e-EPS, 23 February 2017; Europhysics news (2) p. 3 (2017)

  27. N. Straumann, Einstein in 1916: On the Quantum Theory of Radiation, SPG Mitteilungen Communications de la SSP (51) (2017)

  28. M. van Strien, Continuity in Nature and in Mathematics: Du Chatelet at Boscovich, European Studies in Philosophy of Science (5) 71-81 (2017)

  29. V. Trimble, Wired by Weber: The story of the first searcher and searches for gravitational waves, European Physical Journal H (42) 261-291 (2017)

  30. P. Tyson, A Laboratory in the Clouds – Horace-Benedict de Saussure (1740–1799), IoP History of Physics Newsletter (35) 18-33 (2017)

  31. C. Warrick, 60 Years on from ZETA, IoP History of Physics Newsletter (35) 10-12 (2017)

2016

  1. R. Coelho, P. Borges, R. Karam, Atwood and Poggendorff: an insightful analogy. In: European Journal of Physics, Bind 37, Nr. 6, 22.09.2016, s. 1-13

  2. J. van Dongen, Heisenbergsche Unscharferelationen kommunizieren: Niels Bohr, Komplementaritat und die Einstein-Rupp-Experimente, Acta Historica Leopoldina (65) 83-107 (2016)

  3. E. Gorg, Review of "The Post-Critical Kant: Understanding the Critical Philosophy through the Opus postumum" by Brian Wesley Hall. In: Society and Politics, 19, 1, 70-72 (2016)

  4. Ch. Hammond, Whin Brow the house at which the new science of X-ray crystallography began, Crystallography Reviews (22) 220-227 (2016)

  5. H. Inaba, Kinetic Theory, Statistical Mechanics, and Chemistry from the 1870s to the 1920s, KAGAKUSHI, pp.62-71 (2016) Japanese

  6. S. Juznic, History of History of Physics, Acta Baltica Historiae et Philosophiae scientiarum, 4(2) 5-30 (2016)

  7. Г. Камишева, Научните интереси на акад. Георги Наджаков, Списание на БАН (5) 56-62 (2016)

  8. R. Karam, O. Uhden, D. Hottecke, Das habt ihr schon im Mathe gelernt! Stimmt das wirklich? Ein Vergleich zwischen dem Umgang mit mathematischen Konzepten in der Mathematik und in der Physik. In: Naturwissenschaften im Unterricht Physik, Bind 153-154, 07.2016, s. 22-27

  9. F. Kneubil, R. Karam, Keyhole: Equal signs as bridges between the phenomenological and theoretical dimensions. In: Revista Brasileira de Ensino de Fisica, Bind 39, Nr. 2, e2302, 01.12.2016, s. 1-11

  10. W. Kutschera, Accelerator mass spectrometry: state of the art and perspectives, Advances in Physics: X, 1(4) 62-65 (2016)

  11. W. Kutschera, G. Patzelt, P. Steier, E. Wild, The Tyrolean Iceman and his glacial environment during the Holocene, Radiocarbon, online (2016) 1-11; DOI: 10.1017/RDC.2016.70

  12. J. Lacki, Born's outstanding role in the formulation of Quantum Mechanics, SPG Mitteilungen Communications de la SSP (48) (2016)

  13. R. Lalli, "Dirty Work" But Someone Has To Do It: Howard P. Robertson and the Refereeing Practices of Physical Review in the 1930s, Notes and Records of the Royal Society, 70, 151–174 (2016)

  14. R. Meer, Kants Ringen um “einige objective Gultigkeit” der Prinzipien der reinen Vernunft, In: R. Mosenbacher, Incipiens-Zeitschrift fur Erstpublikationen aus der Philosophie und ihrer Geschichte, Band 5, Ausgabe 1, Seiten 71-97 (2016)

  15. J. Navarro, Ether and Wireless. An Old Medium into New Media, Historical Studies in the Natural Sciences, 46(4) 460-489 (2016)

  16. J. Navarro, Oracles, Prophets and the Exoteric Circles of Science and Religion, Scientia et Fides, 4(2) 285-301 (2016)

  17. J. Navarro, Ether and Wireless. An old medium into new media, Historical Studies in the Natural Sciences, 46(4), 460-489 (2016)

  18. J. Navarro Loidi, Cadet Selection for the Royal Artillery in Spain, 1764–1808, Vulcan (4) 27-51 (2016)

  19. A. Oliveira, Leibniz?s Developments in Machine Science, Simposio Internacional em Historia das Maquinas e Mecanismos, 7-10 de Junho, Queretaro, Mexico (2016)

  20. D. H. Perkins, Early steps towards quarks and their interactions using neutrino beams in CERN bubble chamber experiments, European Physical Journal H (41) 157-164 (2016)

  21. J. Renn, D. Wintergrun, R. Lalli, Manfred Laubichler and Matteo Valleriani: “Netzwerke als Wissensspeicher", In: Jurgen Mittelstra? und Ulrich Rudiger (Hg.): Die Zukunft der Wissensspeicher. Forschen, Sammeln und Vermitteln im 21. Jahrhundert. Konstanz: UVK Verlagsgesellschaft (2016) 35-79.

  22. T. Sauer, Biography of an idea: the case of gravitational lensing, SPG Mitteilungen Communications de la SSP (50) (2016)

  23. M. Stanley, Why should physicists study history? Physics Today, AIP, 69(7) p. 38 (2016)

  24. P. Steier, J. Liebl, W. Kutschera, E. Wild, R. Golser, Preparation method of µg carbon samples for 14C measurements, Radiocarbon, online (2016) 1-12; DOI: 10.1017/RDC.2016.94

  25. C. Tai, J. van Dongen, Anton Pannekoek's Epistemic Virtues in Astronomy and Socialism: Personae and the Practice of Science, BMGN - Low Countries Historical Review, 131(4) 55-70 (2016)

  26. F. Wilczek, Physics in 100 years, Physics Today, 69(4) p. 32 (2016)

  27. E. Wild, W. Kutschera, Altersbestimmung dank Atomtests, Spektrum der Wissenschaft, Marz (2016) 62-65

2015
  1. A. Blum, L. Bonolis, R. Lalli and J. Renn, La relativita dopo la guerra, Le Scienze. Edizione italiana di Scientific American 567 (2015), 48–53

  2. A. Blum, R. Lalli und J. Renn, The Reinvention of General Relativity: A Historiographical Framework for Assessing One Hundred Years of Curved Space-Time, Isis, 598–620 (2015)

  3. D. Dieks, J. van Dongen, S. de Haro, Emergence in holographic scenarios for gravity, Studies in the History and Philosophy of Modern Physics (52) 203-216 (2015)

  4. J. van Dongen, Albert Einstein and the History and Philosophy of Science, Isis, 106(3), 684-689 (2015)

  5. J. van Dongen, Communicating the Heisenberg uncertainty relations: Niels Bohr, complementarity and the Einstein-Rupp experiments. - In F. Aaserud, H. Kragh (Eds.), One hundred years of the Bohr atom: Proceedings from a conference (Scientia Danica. Series M, Mathematica et physica; Vol. 1). Copenhagen: Det Kongelige Danske Videskabernes Selskab (2015) 310-343

  6. J. van Dongen, The historical contingency of rationality: The social sciences and the Cold War. Metascience, 24(1) 71-76 (2015)

  7. J. van Dongen, F. Hoeneveld, Quid pro Quo: Dutch Defense Research during the early Cold War. In J. van Dongen (Ed.), Cold War Science and the Transatlantic Circulation of Knowledge, pp. 101-121 (2015)

  8. E. Gorg, W. Deppert, M. Sojka: Kurt Hubner - Bibliographie. In: Journal for General Philosophy of Science, 46(2) 269-277 (2015)

  9. E. Gorg, Zum Gravitationsgesetz bei Newton, Kant und Fries. In: Kant-Studien, 106(2) 259-275 (2015)

  10. H. Inaba, Reading Elementary Principles: Gibbs and the origin of statistical mechanics, Annalen der Physik, 527,pp.A102-A104 (2015)

  11. H. Inaba, The development of ensemble theory: A new glimpse at the history of statistical mechanics, The European Physical Journal H, 40, pp.489-526 (2015)

  12. Г. Камишева, Приносът на Нестор Марков за обучението по физика и математика (1836–1916), Светът на физиката (3) 281-293 (2015)

  13. C. Kiefer, Als Raum und Zeit sich plotzlich krummten, Frankfurter Allgemeine, 24.11.2015

  14. G. Korschinek, W. Kutschera, Mass spectrometric searches for superheavy elements in terrestrial matter, Nuclear Physics A (944) 190-203 (2015)

  15. H. Kragh, Flickering Light: A History of Neon, In: Ambix, Vol. 62(2) p. 196-197 (2015)

  16. H. Kragh, Book review: The Performance of the EU in International Institutions, In: European Legacy, Vol. 20, No. 2, (17.02.2015) p. 191-192

  17. H. Kragh, From Cosmochemistry to Fuel Cells: Notes on Emil Baur, Physical Chemist, Bulletin for the History of Chemistry, 40(2) 74-85 (2015)

  18. J. Lacki, Celebrating hundred-fifty years of Maxwell's equations: a historical perspective, SPG Mitteilungen Communications de la SSP (45) (2015)

  19. R. Lalli, The Renaissance of Physics: Karl K. Darrow (1891–1982) and the Dissemination of Quantum Theory at the Bell Telephone Laboratories, In: Raffaele Pisano (Hg.): A Bridge between Conceptual Frameworks: Sciences, Society and Technology Studies, Dordrecht: Springer (2015) 249–273

  20. R. Meer, Immanuel Kant: Die Einheit des Bewusst- seins. Die „Deduktion der Kategorien“ und die „Paralogismen der reinen Vernunft“, Kant-Studien 106 (3) (2015)

  21. D. Meldzer, V. Otero, A brief history of physics education in the United States, American Journal of Physics, 83(5) 447-458 (2015)

  22. R Mosenbacher, Immanuel Kant: Die Einheit des Bewusst-seins. Die “Deduktion der Kategorien und die Paralogismen der reinen Vernunft“, Kant-Studien, Band 106, Ausgabe 3, Seiten 523-527 (2015)

  23. J. Navarro Loidi, La balistica en los escritos de Vicente Mut, Llull, 38 (n? 82) 321-344 (2015)

  24. M. Numrich, W. Kutschera, P. Steier, J. Sterba, R. Golser, On the effect of organic carbon on rehydroxylation (RHX) dating, Journal of Archaeological Science (57) 92-97 (2015)

  25. A. Oliveira, Uma Historia Concisa do Principio de Bernoulli, Scientiarum Historia, 11-13 de Novembro de 2015

  26. A. Oliveira, History of Krylov-Bogoliubov- Mitropolsky Methods of Nonlinear Oscillations, 14th IFToMM Workshop on History of Mechanism and Machine Science, St. Petersburg, 26-28 May 2015

  27. A. Oliveira, Charles-Augustin Coulomb the Founder of Biomechanics, 4th IFToMM Workshop on History of Mechanism and Machine Science, St. Petersburg, 26-28 May 2015

  28. C. O’Raifeartaigh, M. O’Keeffe W. Nahm, S. Mitton, Einstein’s cosmology review of 1933: a new perspective on the Einstein-de Sitter model of the cosmos, European Physical Journal (H) 40 (3) 301-335 (2015)

  29. X. Roque, Cultures of Research and the InternationalRelations of Physics trouth Francoism: Spain at CERN, Science Policies and Twentieth-Century Dictatorships, Chapter 6, p. 121-140 (2015)

  30. P. M. Schuster, The Institute of Radium Research, Boltzmanngasse 3, Vienna, Austria, Europhysics News, 46 (5-6) p. 4-5 (2015)

  31. A. Wallner, T. Faestermann, J. Feige, C. Feldstein, K. Knie, G. Korschinek, W. Kutschera, B. Ofan, M. Paul, F. Quinto, G. Rugel, P. Steier, Abundance of live 244Pu in deep-sea reservoirs on Earth points to rarity of actinide nucleosynthesis, Nature Communications (20-Jan-2015), DOI: 10.1038/ncomms6956

  32. A. Wallner, M. Bichler, B. Buczak, R. Dressler, L.K. Fifield, D. Schumann, J.H. Sterba, S.G. Tims, G. Wallner, W. Kutschera, Settling the half-life of 60Fe: Fundamental for a versatile astrophysical chronometer, Physical Review Letters (114) 041101 (2015)

  33. D. Wintergrun, J. Renn, R. Lalli, M. Laubichler and M. Valleriani, Netzwerke als Wissensspeicher. Berlin: Max Planck Institute for the History of Science (2015)

  34. E. Wolf, Recollections of Max Born, SPG Mitteilungen Communications de la SSP (47) (2015)

  35. J.-Ph. Martinez, J. Lacki, Vladimir Fock and the defense of modern theories in Soviet Union, SPG Mitteilungen Communications de la SSP (47) (2015)

2014
  1. A. Borrelli, Thinking with optical objects: glass spheres, lenses and refraction in Giovan Battista Della Porta's optical writings, Journal of Early Modern Studies (2014)

  2. A. Borrelli, Genesis des Gottesteilchen: Narrativen der Massenerzeugung in der Teilchenphysik, In: S. Azzouni, S. Boschen, C. Reinhardt (Hg.), Erzahlung und Geltung. Wissenschaft zwischen Autorschaft und Autoritat, Verlag Velbruck Wissenschaft (2014)

  3. A. Borrelli, The making of an intrinsic property: "symmetry heuristics" in early particle physics, In: Studies in the History and Philosophy of Science, Special issue on Intergrated History and Philosophy of Science (2014)

  4. D. Castelvecchi, Einstein’s lost theory uncovered, Nature (506) 418–419 (2014)

  5. John Farrell, New Discovery Reveals Einstein Tried To Devise A Steady State Model Of The Universe, Forbes (25 February 2014)

  6. H. Goenner, On the history of unified field theory 1930–1965, Part II, Living Review Relativity, Springer, 17(5) 1-241 (2014)

  7. E. Gorg, Integrating Chemistry, Electricity and Magnetism into dynamical Natural Philosophy: J.F. Fries's extension of Kant's Metaphysical Foundations. In: Advances in Historical Studies, 3(1) 56-67 (2014)

  8. H. Grimmer, History of Crystallography in Switzerland, SPG Mitteilungen Communications de la SSP (43) (2014)

  9. H. Inaba, The genealogy of ensemble theories and thermodynamic analogies: A study on J. Willard Gibbs' Elementary principles in statistical mechanics, PHS Studies, pp.1-20 (2014) Japanese

  10. Г. Камишева, Международната конференция по история на физиката в Кеймбридж, Светът на физиката (3) 336-341 (2014)

  11. Г. Камишева, Кабинетът на Георги Наджаков – исторически обект на Европейското физическо дружество, Светът на физиката (2) 197-213 (2014)

  12. A. Kostov, Fifty years and the last ten of them: International Activities of the Institute of Balkan Studies and Centre of Thracology – BAS, Etudes balkaniques (1) 7-21 (2014)

  13. H. Kragh, Einsteins odysse : Fra speciel til almen relativitetsteori, In: Kvant, No. 4 (2014) p. 20-24

  14. H. Kragh, Chemical elements, discoveries, and disputes, In: Metascience, Vol. 23, No. 2 (2014) p. 373-375

  15. H. Kragh, Mathematics and Physics: The Idea of a Pre-Established Harmony, In: Science & Education, Vol. 24, No. 5 (2014)

  16. Kragh, H., (Review of:) Dan Ch. Christensen, Hans Christian Orsted: Reading Nature’s Mind, Oxford University Press (2013), In: Physics in Perspective, Vol. 16, No. 2 (06.2014) p. 280-282

  17. H. Kragh, andheden om sandheden, In: Jyllands-Posten (2014) p. 10-11

  18. Kragh, H., The science of the universe: Cosmology and science education, International Handbook of Research in History, Philosophy and Science Teaching, vol. 1, ed. Michael Matthews, Vol. 1, Dordrecht: Springer (2014) p. 643-665

  19. H. Kragh, Empirical aspects of Niels Bohr's atomic theory (in Chinese), In: Science & Culture Review, Vol. 10, No. 6 (2014) p. 22-39

  20. H. Kragh, Historical aspects of post-1850 cosmology, Graduate School in Astronomy: XVIII Special Courses at the National Observatory, Rio de Janeiro, ed. Marcelo Fernandes; Simone Daflon; Alvaro Alvarez-Candal; Renato Dupke; Jailson Alcaniz. Melville, New York, American Institute of Physics (2014) p. 3-26; AIP Conference Proceedings Series; No. 3, Vol. 1632

  21. H. Kragh, Naming the big bang - In: Historical Studies in the Natural Sciences, Vol. 44, No. 1 (2014) p. 3-36

  22. H. Kragh, Origin of the modern cosmological principle, Cosmology and Consciousness: Quantum Physics and Neuroscience of Mind . ed. Deepak Chopra; Roger Penrose, London, cosmology.com (2014) p. 29-36

  23. H. Kragh, Quantum theory, The Oxford Encyclopedia of the History of American Science, Medicine, and Technology vol. 2. ed. Hugh Slotten. New York, Oxford University Press (2014) p. 317-319

  24. H. Kragh, (Review) David P. D. Munns, A Single Sky: How an International Community Forged the Science of Radio Astronomy, Cambridge, Mass, MIT Press (2013), In: Technology and Culture, Vol. 55, No. 2 (2014) p. 506-507

  25. H. Kragh, (Review) J. S. Rowlinson, Sir James Dewar, 1842-1923: A Ruthless Chemist, Ashgate: Farnham (2012), In: Ambix, Vol. 61, No. 1 (2014) p. 107

  26. H. Kragh, (Review) S. Katzir, C. Lehner, and J. Renn, eds., Traditions and Transformations in the History of Quantum Physics, Berlin: Edition Open Access (2013), In: Centaurus, Vol. 56, No. 1 (2014) p. 58-59

  27. H. Kragh, Rundetarn og kikkerten – nyt lys pa gammel historie, In: Aktuel Naturvidenskab, No. 4 (2014) p. 44-47

  28. H. Kragh, The names of physics : plasma, fission, photon, In: European Physical Journal H, Vol. 39, No. 3 (2014) p. 263-281

  29. H. Kragh, The "new physics", The Fin-de-Siecle World . ed., Michael Saler. London : Routledge (2014) p. 441-455

  30. H. Kragh, Trek af oxygens opdagelseshistorie, Oxygen: Historien om et Grundstofs Opdagelse, ed. Ture Damhus; Anita K. Nielsen; Borge Riis Larsen. Nyt Teknisk Forlag (2014) p. 9-22; Historisk-Kemiske Skrifter; No. 21

  31. H. Kragh, 1811 – Luftferd, Danmark Bliver Danmark: Krig, Damp og Genier i 1800-Tallet, Aarhus Universitetsforlag (2014) p. 11

  32. H. Kragh, 1857 – Lys, Danmark Bliver Danmark: Krig, Damp og Genier i 1800-Tallet, Aarhus Universitetsforlag (2014) p. 57

  33. H. Kragh, 1865 – Gronland, Danmark Bliver Danmark: Krig, Damp og Genier i 1800-Tallet, Aarhus Universitetsforlag (2014) p. 65

  34. H. Kreinz, Maxwell's demon its Historical Role on the route from thermodynamics to (quanturm) information theory, M. Cooper, E. A. Davis, P. Schuster, D. Weaire (Eds.), Proceedings of the First International Conference on the History of Physics, Trinity College Cambridge, 4-5 September 2014, Living Editions, Science (2014) 285-307

  35. W. Kutschera, G. Patzelt, E. Wild, B. Haas-Jettmar, W. Kofler, A. Lippert, K. Oeggl, E. Pak, A. Priller, P. Steier, N. Wahlmuller-Oeggl, A. Zanesco, Evidence for early human presence at high altitudes in the Otztal Alps (Austria/Italy), Radiocarbon, 56(3) 923-947 (2014)

  36. J. Lacki, 1946-1960: Une periode difficile pour la physique genevoise, SPG Mitteilungen Communications de la SSP (43) (2014)

  37. R. Lalli, A New Scientific Journal Takes the Scene: The Birth of Reviews of Modern Physics, Annalen der Physik 526 (2014), A83–87

  38. S. Manning, F. Hoflmayer, N. Moeller, M. Dee, C. Bronk Ramsey, D. Fleitmann, T. Higham, W. Kutschera, E. Wild, Dating the Thera (Santorini) eruption: archaeological and scientific evidence supporting a high chronology, Antiquity (88) 1164-1179 (2014)

  39. H. Nussbaumer, Einstein's conversion from his static to an expanding universe, European Physical Journal H, 39(1) 37-62 (2014)

  40. A. Oliveira, Leibniz como Engenheiro de Minas em Harz (Alemanha), aceito para publicacao no Scientiarum, Rio, 12 de Novembro de 2014

  41. A. Oliveira, History of Two Fundamental Principles of Physics: Least Action and Conservation of Energy, Revista da AHS (Advances in Historical Studies), No. 3, pp. 83-92, Marco de 2014.

  42. R. Pisano, Newton’s Philosophiae Naturalis Principia Mathematica Jesuit Edition: The Tenor of a Huge Work, Rendiconti Lincei, 25(4) p. 413–444 (2014)

  43. C. O’Raifeartaigh, B. McCann, Einstein’s Cosmic Model of 1931 Revisited: An Analysis and Translation of a Forgotten Model of the Universe, European Physical Journal (H) 39 (1) 63–85 (2014)

  44. C. O’Raifeartaigh, B. McCann, W. Nahm, S. Mitton, Einstein’s steady-state theory: an abandoned model of the cosmos, European Physical Journal (H) 39 (3) 215-232 (2014)

  45. C. O’Raifeartaigh, Einstein’s steady-state cosmology, Physics World, 27(9) 30-33 (2014)

  46. C. O’Raifeartaigh, A forgotten model of the universe: Analysis of Einstein's 1931 paper featuring a dynamic model of the universe, Science Daily, 19 February 2014.

  47. C. O'Raifeartaigh, S. Mitton, A new persppective on steady-state cosmology from Einstein to Hoyle, In: M. Cooper, E. A. Davis, P. Schuster, D. Weaire (Eds.), Proceedings of the First International Conference on the History of Physics, Trinity College Cambridge, 4-5 September 2014, Living Editions, Science (2014) 241-267

  48. J. Reid, David Gill Magnificent and Desirable Astronomer, In: M. Cooper, E. A. Davis, P. Schuster, D. Weaire (Eds.), Proceedings of the First International Conference on the History of Physics, Trinity College Cambridge, 4-5 September 2014, Living Editions, Science (2014) 269-283

  49. P. M. Schuster, Closing Remarks and Outlook. The European History of Physics - a Challenge to Our Physics Community, In: M. Cooper, E. A. Davis, P. Schuster, D. Weaire (Eds.), Proceedings of the First International Conference on the History of Physics, Trinity College Cambridge, 4-5 September 2014, Living Editions, Science (2014) 309-315

  50. Ch. Smeenk, Einstein’s Role in the Creation of Relativistic Cosmology, in The Cambridge Companion to Einstein, ed. Michel. Janssen and Christoph Lehner, Cambridge University Press (2014) 228–69

  51. M. van Strien, On the origins and foundations of Laplacian determinism, Studies in History and Philosophy of Science, 45(1) 24-31 (2014)

  52. M. van Strien, The Norton dome and the nineteenth century foundations of determinism, Journal for General Philosophy of Science, 45(1) 167-185 (2014)

2013
  1. V. Argyrakis, The Evolution of Wind theory and the Concept of Exhalation in the Context of ancient Greek thought, Almagest, 4(2) 122-139 (2013)

  2. G. Battimelli, Tra fisica sperimentale e fisica teorica: mutamenti nella fisica italiana del primo Novecento, Quaderni di Storia della Fisica (18) 95–105 (2013)

  3. J. van Besouw, J. van Dongen, The reception of relativity in the Netherlands, In A. Maas, & H. Schatz (Eds.), Physics as a calling, science for society: studies in honour of A. J. Kox, Leiden Publications (2013) 89-110

  4. A. Borrelli, M. Stoltzner, Model Landscapes in the Higgs Sector, In: V. Karakostas, D. Dieks (ed.), EPSA11 Perspectives and foundational problems in philosophy of science. Conference 2011 (Springer 2013) 241-252

  5. L. Bruun, F. Aaserud, H. Kragh, Bohrs model for atomers og molekylers struktur, Forlaget Epsilon (2013) p. 111-124

  6. L. Bruun, F. Aaserud, H. Kragh, Den videre udvikling af Bohrs atomteori, Forlaget Epsilon (2013) p. 125-138

  7. O. Darrigol, R. Jurgen The emergence of statistical mechanics. In The Oxford handbook to the history of physics, ed. J. Buchwald and R. Fox, 765–788. Oxford: Oxford University Press (2013)

  8. Ch. Cremer, B. R. Masters, Resolution enhancement techniques in microscopy, European Physical Journal H (38) 281-344 (2013)

  9. E. Gorg, Kant und Fries: Kritik des newtonschen Raumes. In: Kant und die Philosophie in Weltburgerlicher Absicht. Akten des XI Kant-Kongress 2010, 5, 55-64 (2013)

  10. P. Holmberg, H. Nevanlinna, Geomagnetic, meteorological and auroral research in Finland from the 18th century to the beginning of the 20th century, Bidrag till kannedom av Finlands natur och folk (The Finnish Society of Sciences and Letters, Helsinki, Finland), No. 191 (2013)

  11. F. Hoeneveld, J. van Dongen, Out of a clear blue sky? FOM, the bomb and the boost in Dutch physics funding after World War II. Centaurus, 55(3) 264-293 (2013)

  12. J. Lacki, Le modele atomique de Bohr: origines, contexte et posterite, SPG Mitteilungen Communications de la SSP (40) (2013)

  13. R. Mosenbacher, Das Schematismuskapitel Immanuel Kants. Zur Funktion und Struktur des Schematismus der reinen Verstandesbegriffe, Akademiker-Verlag 1-6 (2013)

  14. T. Petkovic, The achievement, legacy, intuition, and Cosmopolitanism of Nikola Tesla, Almagest, 4(2) 60-85 (2013)

  15. R. Pisano, D. Capecchi, Conceptual and Mathematical Structures of Mechanical Science in the Western Civilization around the 18th century, Almagest, 4(2) 86-121 (2013)

  16. A. Postnikov, The russian Mission to Bukhara in 1842 and the Fate of the English Emissaries Charles Stoddart and arthur Conolly, Almagest, 4(2) 32-59 (2013)

  17. M. Wright, The antikythera Mechanism: Compound Gear-trains for Planetary indications, Almagest, 4(2) 4-31 (2013)

  18. H. Zuidervaart, Entrepreneurs in Experiments: The Leiden Cabinet of Physics and the Motives of its Founders (1675-1742), Cabinets of Experimental Philosophy in Eighteenth-Century Europe (2013)

  19. H. Hooijmaijers, A. Maas, New Light on the Cabinet of Physics of Padua, Cabinets of Experimental Philosophy in Eighteenth-Century Europe (2013)

  20. H. Kragh, Det levende univers, In: AU-gustus, Vol. 3 (2013) p. 29

  21. H. Kragh, Entretien avec Helge Kragh sur la physique de la fin de siecle, In: L’elephant: la revue de culture generale, No. 4 (2013) p. 133-135

  22. H. Kragh, Arven efter Bohr, In: Magisterbladet, No. 12 (2013) p. 34-35

  23. H. Kragh, Har naturvidenskaben en fremtiden Fremtiden. ed., Ole Hoiris. Aarhus : Aarhus Universitetsforlag (2013) p. 67-98

  24. H. Kragh, Niels Bohr between physics and chemistry, In: Physics Today, Vol. 66 (2013) p. 36-41

  25. H. Kragh, Big Bang: The etymology of a name, In: Astronomy & Geophysics, Vol. 54, No. 2 (2013) p. 2.28-2.30

  26. H. Kragh, Bohrs atomteori fylder 100 ar, In: Aktuel Naturvidenskab, No. 1, (2013) p. 10-14

  27. H. Kragh, Korrespondensprincippet : Bohrs tryllestav, In: Kvant - Tidsskrift for fysik og astronomi, No. 1 (2013) p. 4

  28. H. Kragh, Pioner og kreationist, In: Weekendavisen (2013) p. 13

  29. H. Kragh, A quantum discontinuity, Erwin Schrodinger: 50 Years After. ed. Wolfgang L. Reiter; Jakob Yngvason. European Mathematical Society (2013) p. 135-152

  30. H. Kragh, Big bang – den kosmiske begyndelse, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 281-286

  31. H. Kragh, Buckyball – verdens smukkeste molekyle, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 311-316

  32. H. Kragh, Daltons atomteori, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 83-88

  33. H. Kragh, Den dynamiske Jord, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 215-222

  34. H. Kragh, Den forbavsende radioaktivitet, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 177-182

  35. H. Kragh, Den kopernikanske revolution, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 23-28

  36. H. Kragh, Den magelose kvantemekanik, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 229-236

  37. H. Kragh, Den morke energi, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 323-328

  38. H. Kragh, Den uforgungelige energi, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 103-108

  39. H. Kragh, Skydsgaard, Morten Arnika; Wang, Tobias, Efterskrift, Om naturvidenskabelige opdagelser, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 323-338

  40. H. Kragh, Einsteins relativitetsteori, 50 Opdagelser: Hojdepunkter i Naturvidenskaben . Aarhus : Aarhus Universitetsforlag (2013) p. 189-196

  41. H. Kragh, Elektromagnetismen, 50 Opdagelser: Hojdepunkter i Naturvidenskaben. Aarhua : Aarhus Universitetsforlag (2013) p. 97-102

  42. H. Kragh, En verden af planeter, 50 Opdagelser: Hojdepunkter i Naturvidenskaben . Aarhus : Aarhus Universitetsforlag (2013) p. 317-322

  43. H. Kragh, Et himmelsk grundstof, 50 Opdagelser: Hojdepunkter i Naturvidenskaben. Aarhus : Aarhus Universitetsforlag (2013) p. 183-188

  44. H. Kragh, Et univers af galakser, 50 Opdagelser: Hojdepunkter i Naturvidenskaben. Aarhus : Aarhus Universitetsforlag (2013) p. 237-244

  45. H. Kragh, Fikseringen af luftens kvelstof, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus, Aarhus Universitetsforlag (2013) p. 203-208

  46. H. Kragh, Fossilernes natur, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 53-58

  47. H. Kragh, Fysik som teknologi? Heidegger om naturvidenskabens og teknologiens vesen, Nye Sporgsmal om Teknikken. ed. / Kasper Schiolin; Soren Riis, Aarhus Universitetsforlag (2013) p. 87-102.

  48. H. Kragh, Grundstoffernes periodiske system, 50 Opdagelser: Hojdepunkter i Naturvidenskaben . Aarhus : Aarhus Universitetsforlag (2013) p. 143-148

  49. H. Kragh, Heavenly radiation : Research on the aurora borealis in the early 20th century The Roots of Physics in Europe, ed. Peter Schuster. Pollauberg, Austria, Living Edition (2013) p. 217-234

  50. H. Kragh, Ingenting – det absolutte tomrum, 50 opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag, (2013) p. 17-22

  51. H. Kragh, Istid og istider, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 123-130

  52. H. Kragh, Johannes Keplers planetlove, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 35-40.

  53. H. Kragh, Jordens alder, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 71-76.

  54. H. Kragh, Jordens form og storrelse, 50 Opdagelser: Hojdepunkter i Naturvidenskaben. Aarhus, Aarhus Universitetsforlag (2013) p. 11-16

  55. H. Kragh, Jordens indre, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 275-280

  56. H. Kragh, Lavoisiers kemiske revolution, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 77-82

  57. H. Kragh, Lys er elektromagnetiske bolger, 50 Opdagelser: Hojdepunkter i Naturvidenskaben, Aarhus Universitetsforlag (2013) p. 149-154

  58. H. Kragh, Grundstoffernes periodiske system, In: Jyllands-Posten (2013) 13 October 2013. p. 8-9

  59. H. Kragh, Svante Arrhenius, Cosmical Physicist and Auroral Theorist, History of Geo- and Space Sciences (4) 61-69 (2013)

  60. H. Kragh, Videnskabsikonets revolution?re tanker, In: Jyllands-Posten (2013) 06 October 2013. p. 8-9

  61. W. Kutschera, Applications of accelerator mass spectrometry, International Journal of Mass Spectrometry (349-350) 203-218 (2013)

  62. W. Kutschera, Accelerator mass spectrometry – from DNA to astrophysics, EJP Web of Conferences (63) 03001 (2013)

  63. R. Lalli, Anti-Relativity in Action: The Scientific Activity of Herbert E. Ives between 1937 and 1953, Historical Studies in the Natural Sciences, 43, 41–104 (2013)

  64. J. A. Peacock, Slipher galaxies and cosmological velosity fields, In: M. Wau, D. Hunter (Eds), Origins of the expanding universe 1912-1932, Astronomical Society Pac. Conference Series (471) 3-23 (2013)

  65. C. O’Raifeartaigh, The contribution of V. M. Slipher to the discovery of the expanding universe, In: M. Wau, D. Hunter (Eds), Origins of the expanding universe 1912-1932, Astronomical Society Pac. Conference Series (471) 49-61 (2013)

  66. C. O’Raifeartaigh, The contribution of V.M. Slipher to the discovery of the expanding universe, In: Origins of the Expanding Universe: 1912-1932, (eds M.Way and D. Hunter) Astronomical Society of the Pacific Conference Series 471 (2013) pp. 49-61

  67. J. Ron, The Past is Prologue: The Future and the History of Science, Open Mind, BBVA, Madrid (2013)

  68. N. Straumann, On the Einstein-Grossmann Collaboration 100 Years ago, SPG Mitteilungen Communications de la SSP (40) (2013)

  69. N. Straumann, Fritz Zwicky: An Extraordinary Astrophysicist Swees Physical Society (2013)

  70. M. van Strien, The nineteenth century conflict between mechanism and irreversibility, Studies in History and Philosophy of Modern Physics, 44(3) 191-205 (2013)

  71. A. Varela, Des decisions politiques aux consequences scientifiques - La strategie des augmentations d’energie dans les dernieres annees du LEP, SPG Mitteilungen Communications de la SSP (40) (2013)

2012
  1. O. Bergmann, J. Liebl, S. Bernard, K. Alkass, M. Yeung, P. Steier, W. Kutschera, L. Johnson, M. Landen, H. Druid, K. Spalding, J. Frisen, The Age of Olfactory Bulb Neurons in Humans, Neuron (74) 634-639 (2012)

  2. A. Borrelli, Glasinstrumente und Naturforschung bei Giovan Battista Della Porta: Ein Beispiel von „transverse regime“ der Wissensproduktion in der fruhen Neuzeit?, In: K. Hentschel (ed.), Zur Geschichte der Forschungstechnologien. Generalitat, Interstitialitat and Transfer (Diepholz: GNT-Verlag, 2012) 92-109

  3. A. Borrelli, The case of the composite Higgs: the model as a “Rosetta stone” in contemporary high-energy physics, Studies in the History and Philosophy of Modern Physics 43 (2012) 195-214

  4. R. Catinaud, Which physics for a new institute? Albert Gockel, Joseph Kowalski and the early years of the Fribourg Institute of Physics, SPG Mitteilungen Communications de la SSP (2012)

  5. G. Eckhardt, History of the discovery of the stimulated Raman effect at the Hughes research laboratories, European Physical Journal H (37) 793-796 (2012)

  6. N. Herran, X. Roque, Historia de la f'isica en Espaсa en el siglo XX: balance y perspectivas, Nova Epoca (5) p. 11-23 (2012)

  7. P. Holmberg, Geomagnetic Measurements in Finland in the 19th Century (& Heikki Nevanlinna), 2nd EHoP Conference, Innsbruck, Austria, 3-4 September 2009, p. 103-121, Living Edition, Pollauberg (2012)

  8. G. Kamisheva, History of Science and Technology in Bulgaria, Newsletter for the History of Science in Southeastern Europe (17) 15-20, December 2012

  9. Г. Камишева, А. Г. Петров, Сладкодумникът на българската физика, Н. Балабанов, Откровения, Унив. Изд. П. Хилендарски, Пловдив (2012) с. 204-210

  10. Г. Камишева, Втора международна конференция Корените на физиката в Европа 100 години космични лъчи, Списание на БАН (6) 60-64 (2012)

  11. Г. Камишева, Разпространение и развитие на физико-математическите знания на Балканите, Светът на физиката, кн. (1) 93-96 (2012)

  12. H. Kubbinga, Crystallography from Hauy to Laue: controversies on the molecular and atomistic nature of solids, Zeitschrift fur Kristallographie, 227, 1–26 (2012); Acta Crystography, A68, 3-29 (2012)

  13. W. Kutschera, M. Bietak, E. Wild, C. Bronk Ramsey, M. Dee, R. Golser, K. Kopetzky, P. Stadler, P. Steier, U. Thanheiser, F. Weninger, The chronology of Tell el-Daba: A crucial meeting point of 14C dating, archaeology, and Egyptology in the 2nd millennium BC, Radiocarbon, 54(3-4) 407-422 (2012)

  14. J. Lacki, Albert Gockel: from atmospheric electricity to cosmic radiation, SPG Mitteilungen Communications de la SSP (2012)

  15. R. Lalli, The Reception of Miller’s Ether-Drift Experiments in the USA: The History of a Controversy in Relativity Revolution, Annals of Science, 69 (2012) 153–214

  16. D. Monaldi, Raffaella Simili. Sotto falso nome: Scienziate italiane ebree (1938–1945), Isis, 103(4) 802-803 (2012)

  17. E. Nicolaidis, La politique scientifique dans l'Empire ottoman, International Archive of the History of Science, Les sciences a la cour de Versailles et la naissance des politiques scientifiques en Europe, vol. 62, fasc. 169, decembre (2012) 679-689, Presentation in Franch (31:52)

  18. A. Oliveira, Jean-Victor Poncelet and the Development of Applied Mechanics, IFToMM Symposium, Amsterdam 7-10 de Maio de 2012

  19. A. Oliveira, The Role of the Concept of Work in the Development of Applied Mechanics, SISFA 2012, Roma, Setembro 2012

  20. A. Oliveira, Passagens da Revolucao Cientifica para as Ciencias da Engenharia, Sientiarum 2012, Rio, Novembro de 2012

  21. N. Straumann, From Static to Expanding Models of the Universe, SPG Mitteilungen Communications de la SSP (2012)

  22. J. Thomas, William Lawrence Bragg The Pioneer of X-ray Crystallography and his Pervasive Influence, Angewandte Chemie Int. Ed. (51) 12946-12958 (2012)

2011
  1. M. Badino, Mechanistic slumber vs. statistical insomnia: The early history of Boltzmann’s H-theorem (1868–1877), The European Physical Journal H (36) 353–378 (2011)

  2. Y. Bergman, Alfred Nobel, Aniline and Diphenylamine, ICON (17) 40-56 (2011)

  3. A. Borrelli, Giovan Battista Della Porta’s Neapolitan magic and his humanistic meteorology, In: S. Zielinski, E. Furlus (eds.), Variantology 5. On Deep Time Relations of Arts, Sciences and Technologies (Cologne: Walther Konig, 2011) 103–130

  4. A. Borrelli, Angular momentum between physics and mathematics, In: K.-H. Schlote, M. Schneider (eds.), Mathematics Meets Physics (Frankfurt a. M.: Verlag Harri Deutsch, 2011) 395–440

  5. A. Buchanan, Power and Conservation: The Importance of the History of Technology, ICON (Journal of the International Committee for the History of Technology (17) 3-11 (2011)

  6. B. Buchanan, The Gunpowder Heritage: ‘Re-using the Industrial Past’, ICON (17) 71-93 (2011)

  7. A. Davis, The Strangest Man, IoP History of Physics Group Newsletter (29) 27-32 (2011)

  8. F. Dellinger, W. Kutschera, O. Forstner, R. Golser, A. Priller, P.Steier, A. Wallner, G. Winkler, Upper limits for the existence of long-lived isotopes of roentgenium in natural gold, Phys. Rev. C (83) 015801-1 to 9 (2011)

  9. F. Dellinger, O. Forstner, R. Golser, A. Priller, P.Steier, A. Wallner, G. Winkler, W. Kutschera, Ultrasensitive search for long-lived superheavy nuclides in the mass range A = 288 to A = 300 in natural Pt, Pb, and Bi, Phys. Rev. C (83) 065806-1 to 13 (2011)

  10. L. Drury, Escaping the accelerator: how, when and in what numbers do cosmic rays get out of supernova remnants? (2011) MNRAS 415 1807

  11. P. Ford, Superconductivity - the first hundred years, IoP History of Physics Group Newsletter (29) 7-25 (2011)

  12. H. Inaba, On the origin of the concept of ensemble: From Helmholtz to Boltzmann, PHS Studies, pp.85-95 (2011) Japanese

  13. D. Jones, The Secret Life of Bletchley Park, IoP History of Physics Group Newsletter (29) 35-41 (2011)

  14. D. Jones, A Brilliant Darkness, IoP History of Physics Group Newsletter (29) 42-47 (2011)

  15. G. Kamisheva, Origins of theoretical physics in Bulgaria. – Dissemination and Development Physics and Mathematics on the Balkans 2011, Edited by A. G. Petrov, G. Kamisheva, R. Kamburova, ISSP, Sofia (2012) 34-43

  16. G. Kamisheva, A brif history of superconductivity in Bulgaria. – Dissemination and Development Physics and Mathematics on the Balkans 2011, Edited by A. G. Petrov, G. Kamisheva, R. Kamburova, ISSP, Sofia (2012) 109-113

  17. G. Kamisheva Physics and Mathematics in the Balkans Dissemination and Development Symposium 17-18 October 2011, Sofia, Bulgaria. – Newsletter for the History of Science in Southeastern Europe (16) 7-8 (2011)

  18. Г. Камишева, Паметна книга на Съюза на физиците в България 2007–2011, Отчетен доклад на Управителния съвет на Съюза на физиците в България, VІІ Конгрес, СФБ, София (2011) 45-46

  19. Г. Камишева, Корените на теоретичната физика в България, От Ръдърфорд до колайдера, Сборник с резюмета, Национален семинар, НАОП, Ямбол (2011) 13-14

  20. J. Lacki, Arthur Schidlof, un pionnier de la physique theorique suisse

  21. J. Lacki, Walter Ritz (1878-1909), the revolutionary classical physicist (2011)

  22. O. Masaaki, Interpretation of Defence Heritage in Japan: A Survey of Its ‘Neglect and Reuse’ and Future Potential as Significant Landscape, ICON (17) 94-108 (2011)

  23. J. Navarro Loidi, Las matematicas en la Academia Militar de Avila, La Gaceta de la Real Sociedad Matematica Espanola, 14 (n 2): 309-332 (2011)

  24. A. Newing, The History of X-Rays, IoP History of Physics Group Newsletter (29) 4-6 (2011)

  25. A. Oliveira, Coriolis? Theory of Machines and Mechanisms, IFToMM Congress, Guanajuato, Mexico, Junho de 2011

  26. A. Oliveira, Jean-Victor Poncelet: Matematico e Engenheiro Politecnico, Scientiarum Historia IV, Rio de Janeiro, Outubro de 2011

  27. A. Oliveira, As Transformacoes da Ciencia das Maquinas no Seculo XIX e o Surgimento da Termodinamica, Congresso Luso-Brasileiro de Historia das Ciencias, Outubro de 2011, Coimbra.Pt.

  28. C. Pursell, The American Patent Agency: The Embedded ‘Lone Inventor’ in American History, ICON (17) 31-39 (2011)

  29. P. Rowlands, Quantum Leaps, IoP History of Physics Group Newsletter (29) 33-34 (2011)

  30. P. Thyssen and K. Binnemans, Accommodation of the Rare Earths in the Periodic Table: A Historical Analysis, in K. Gschneider (Ed.), Handbook on the Physics and Chemistry of Rare Earths, Vol. 41, Academic Press, Burlington (2011) 1-94

  31. D. Weaire, Stocking filler, IoP History of Physics Group Newsletter (29) p. 48 (2011)

  32. E. Wild, W. Kutschera, 14C und die Chronologie Agyptens, Spektrum der Wissenschaft, Dezember (2011) 48-55

  33. A. Yagou, Is Everyday Technology Serious or Fun? Reflections on Emotional Styles in Product Design, ICON (17) 57-68 (2011)

2010
  1. A. Borrelli, Die Reproduktion des Temperaturbegriffs, In: U. Frietsch, B. von Wulfingen (eds.), Epistemologie und Differenz. Zur Reproduktion in den Wissenschaften (Bielefeld: Transcript, 2010) 59–82

  2. A. Borrelli, Dirac’s bra-ket notation and the notion of a quantum state, In: Hermann Hunger, F. Seebacher, G. Holzer (eds.), Styles of Thinking in Science and Technology. Proceedings of the 3rd International Conference of the European Society for the History of Science (Vienna 2008) (2010) 361–371

  3. A. Borrelli, Die bewegende Kraft des Feuers: Naturgeheimnisse und „nutzlose“ Technik in der Fruhen Neuzeit, Praxis der Naturwissenschaften 4/59 (Juni 2010) 5–10

  4. A. Borrelli, Crystallogy in the making, In: S. Zielinski, E. Furlus (eds.), Variantology 4. On Deep Time Relations of Arts, Sciences and Technologies in the Arabic-Islamic World and Beyond (Cologne: Walther Konig, 2010) 53–86

  5. F. Dellinger, O. Forstner, R. Golser, W. Kutschera, A. Priller, P. Steier, A. Wallner, G. Winkler, Search for a superheavy nuclide with A=292 and neutron-deficient thorium isotopes in natural thorianite, Nucl. Instr. and Meth. B (268) 1287-1290 (2010)

  6. H. Inaba, Gibbs' Theory of Statistical Mechanics as a Physicochemical Theory, Journal of History of Science, Japan, pp.1-10 (2010) Japanese

  7. H. Inaba, Ostwald's Energetik: In relation to the introduction of thermodynamics to physical chemistry, PHS Studies, pp.85-103 (2010) Japanese

  8. G. Kamisheva, The roots of theoretical physics in Bulgaria. – Proceedings of the first joint European Symposium on the History of Physics, Peter Maria Schuster (Editor), Pollau Castle, Stiria, Austria, 28-29 May 2010, Living Edition Science (2010) 291-306

  9. W. Kutschera, AMS and climate change, Nucl. Instr. and Meth. B (268) 693-700 (2010)

  10. D. Monaldi, S. Linguerri ; R. Simili (Eds), Einstein parla italiano: Itinerari e polemiche, Bologna, Edizioni Pendragon, 2008, Isis, 101(3) 665-665 (2010)

  11. J. Navarro, Electron diffraction chez Thomson. Early responses to quantum physics in Britain, British Journal for the History of Science, 43, 245-275 (2010)

  12. Г. Камишева, Симпозиумът “Корените на физиката в Европа”, Светът на физиката (4) 435-440 (2010)

  13. Г. Камишева, Бъдещето на Европейското физическо дружество, Светът на физиката (3) 348-349 (2010)

  14. A. Oliveira, Archimedean Science and Scientific Revolution, Conferencia mundial sobre Arquimedes realizada na cidade de Syracusa, 8-10 Junho (2010)

2009
  1. M. Auer, D. Wagenbach, E. Wild, A. Wallner, A. Priller, H. Miller, C. Schlosser, W. Kutschera, Cosmogenic 26Al in the atmosphere and the prospect of a 26Al/10Be chronometer to date old ice, Earth Planet. Sci. Lett. (287) 453-462 (2009)

  2. M. Badino, The odd couple: Boltzmann, Planck and the application of statistics to physics, Annalen der Physik (18) 81–101 (2009)

  3. A. Borrelli, The emergence of selection rules and their encounter with group theory: 1913-1927, Studies in the History and Philosophy of Modern Physics (40) 327–337 (2009)

  4. H. Brown, M. Wayne, J. Uffink, Boltzmann’s H-theorem, its discontents, and the birth of statistical mechanics, Studies in History and Philosophy of Modern Physics (40) 174–191 (2009)

  5. G. Kamisheva, Traditions and Reforms in Bulgarian Physics. Milko Borissov (1921 – 1998), CP1203 7th International Conference of the Balkan Physical Union, Edited by A. Angelopoulos and T. Fildisis, AIP (2009) 1336-1341

  6. G. Kamisheva, Museum as a source for Historical Research in Physics in Bulgaria. – CP1203 7th International Conference of the Balkan Physical Union, edited by A. Angelopoulos and T. Fildisis, AIP (2009) 1342-1346

  7. Г. Камишева, Л. Спасов, 10 години от смъртта на акад. Милко Борисов, Светът на физиката (2) 212-213 (2009)

  8. H. Kragh, Continual fascination: the oscillating universe in modern cosmology, Sci. Context (22) 587–612 (2009)

  9. S. Manning, C. Bronk Ramsey, W. Kutschera, T. Higham, B. Kromer, P. Steier, E. Wild, Dating the Santorini/Thera eruption by radiocarbon: further discussion (AD 2006-2007), In: S. W. Manning, M. J. Bruce, eds., Tree-rings, Kings, and Old World Archaeology and Environment, Oxbow Books, Oxford (2009) pp. 299-316

  10. D. Monaldi, Particle or Wave: The Evolution of the Concept of Matter in Modern Physics, Isis, 100(2), 373-374 (2009)

  11. D. Monaldi, A note on the prehistory of indistinguishable particles, Studies In History and Philosophy of Science, Part B, 40(4) (2009)

  12. J. Navarro, “A dedicated missionary”. Charles Galton Darwin and the new quantum mechanics in Britain, Studies in the History and Philosophy of Modern Physics, 40, 316-326 (2009)

  13. A. Oliveira, Fernando Luiz Barboza Lobo Carneiro, artigo biografico publicado em COBEM-2009, realizado em Gramado-Rio Grande do Sul (2009)

  14. A. Oliveira, Raizes Arquimedianas da Revolucao Cientifica do Seculo XVII, SCIENTIARUM-2009, Rio de Janeiro (2009)

  15. A. Oliveira, D?Alembert and the String Vibration Problem, Workshop sobre Historia das Maquinas e Mecanismos, Gramado, Novembro (2009)

  16. F. Quinto, P. Steier, G. Wallner, A. Wallner, M. Srncik, M. Bichler, W. Kutschera, F. Terrasi, A. Petraglia, C. Sabbarese, The first use of 236U in the general environment and near a shut-down nuclear power plant, Appl. Rad. Isot. (67) 1175-1780 (2009)

  17. J. Ron, The world after the Revolution: Physics in the Second Half of the Twentieth Century, Open Mind, BBVA, Madrid (2009)

  18. I. Usoskin, L. Desorgher, P. Velinov, M. Storini, E. Fluckiger, R. Butikofer, G. Kovaltsov, Ionization of the Earth’s Atmosphere by Solar and Galactic Cosmic Rays (2009)

2008
  1. A.Borrelli, The weatherglass and its observers in the early seventeenth century, In: C. Zittel, G. Engel, N. Karafyllis, R. Nanni (eds.), Philosophies of technology: Francis Bacon and its contemporaries, vol. 1 (Leiden: Brill, 2008) 67-130

  2. A. Borrelli, Pneumatics and the alchemy of weather: What is wind and why does it blow? In: S. Zielinski, E. Furlus (eds.), Variantology 3. On Deep Time Relations of Arts, Sciences and Technologies in China and elsewhere(Cologne: Walther Konig, 2008) 27-72

  3. A. Borrelli, The media perspective in the study of scientific abstraction, In: MediaArtHistoriesArchive, re:place Presentations, issued November 2007, accessioned Januar 2008

  4. H. Inaba, Gibbs's Canonical Ensemble and Its Foundation, PHS Studies, pp.87-99 (2008) Japanese

  5. Г. Камишева, 40 Години Европейско физическо дружество, Светът на физиката (4) 451-452 (2008)

  6. Г. Камишева, Честване 110 годишнината на Физико-математическото дружество, Светът на физиката (4) 448-449 (2008)

  7. A. Kostov, Les etudiants balkaniques dans les ecoles techniques francaises, XIXe - debut du XXe siecle. Sources et historiographie, Anuarul Institutului de Istorie (47) 191-197 (2008)

  8. W. Kutschera, A homage to ECAART-9 and Florence, Nucl. Instr. and Meth. B (266) 2095-2098 (2008)

  9. P. Milota, I. Reiche, A. Duval, O. Forstner, H. Guicharnaud, W. Kutschera, S. Merchel, A. Priller, M. Schreiner, P. Steier, E. Thobois, A. Wallner, B. Wunschek, R. Golser, PIXE measurements of renaissance silverpoint drawings at VERA, Nucl. Instr. and Meth. B (266) 2279-2285 (2008)

  10. D. Monaldi, The Indirect Observation of the Decay of Mesotrons: Italian Experiments on Cosmic Radiation, 1937–1943, Historical Studies in the Natural Sciences 38(3) (2008)

  11. J. Navarro Loidi, J. Palet, The introduction of logarithms into Spain, Historia Mathematica, 35 (2008) 83-101

  12. A. Oliveira, Some Origins of TMM Arisen from Pseudo-Aristotle and Hero of Alexandria, International Symposium on HMM, Taiwan, China, Novembro (2008)

  13. J. Reid, James Clerk Maxwell's Scottish Chair, Philosophical Transactions: Mathematical, Physical and Engineering Sciences, Vol. 366, No. 1871 (2008) pp. 1661-1684

  14. D. Speiser, Discovering the Principles of Mechanics 1600-1800, Birkhдuser (2008)

  15. C. Vockenhuber, M. Bichler, A. Wallner, W. Kutschera, I. Dillmann, F. Kappeler, Measurement of the thermal neutron capture cross section and the resonance integral of radioactive 182Hf, Phys. Rev. C (77) 044608 (2008)

2007
  1. A. Borrelli, Force and its measure, In: MediaArtHistoriesArchive, re:place Background Texts, issued October 2007

  2. R. Golser, H. Gnaser, W. Kutschera, A. Priller, P. Steier, A. Wallner, Exotic negative molecules in AMS, Nucl. Instr. and Meth. B (259) 71-75 (2007)

  3. Г. Камишева, Изложба за академик Георги Наджаков. – Някои съвременни направления в развитието на физиката, Ученическа научна сесия, ИФТТ, София (2007) 9-11

  4. J. Navarro-Loidi, J. Llombart, The introduction of logarithms into Spain, Historia Mathematica (35) 83–101 (2008)

  5. A. Oliveira, Euler's Contribution to Classical Mechanics, XII IFToMM World Congress, Besancon, Junho (2007)

  6. E. Wild, S. Guillen, W. Kutschera, H. Seidler, P. Steier, Radiocarbon dating of the Peruvian Chachapoya/Inca site at the Laguna de los Condores, Nucl. Instr. and Meth. B (259) 378-383 (2007)

2006
  1. M. Badino, The foundational role of ergodic theory, Foundations of Science (11) 323–347 (2006)

  2. A. Borrelli, The flat sphere, In: S. Zielinski, D. Link (eds.), Variantology 2. On Deep Time Relations of Arts, Sciences and Technologies (Cologne: Walther Konig, 2006) 145-166

  3. G. Kamisheva, Bulgarian Mathematical Culture in XIX century. – History and Pedagogy of Mathematics Newsletter (61), 16-20 (2006)

  4. G. Kamisheva, Bulgarian physical and mathematical culture in 19 century. – Proceedings of Sixth International Conference of the Balkan Physical Union (BPU6), Istanbul, 2006, AIP Conference Proceedings, No 899 (2007) 521-522

  5. К. Коленцов, Г. Камишева, Успешен бизнес в областта на приложната физика в България (за П. Стефанов). – Разпространение и развитие на физико-математическите знания в България, Научен симпозиум, ИФТТ, София (2006) 168-170

  6. Г. Камишева, А. Г. Петров, Въведение. – Разпространение и развитие на физико-математическите знания в България, Научен симпозиум, ИФТТ, София (2006) с. 1

  7. Г. Камишева, Извори за Георги Наджаков в Музея по история на физическите науки в България. – Разпространение и развитие на физико-математическите знания в България, Научен симпозиум, ИФТТ, София (2006) 139-143

  8. Г. Камишева, Теоретични изследвания в областта на физическите науки в България през първата половина на 20 век. – Разпространение и развитие на физико-математическите знания в България, Научен симпозиум, ИФТТ, София, (2006) 101-110

  9. Г. Камишева, Наукометрични данни за научноизследователската дейност на Милко Борисов (1921–1998), Разпространение и развитие на физико-математическите знания в България, Научен симпозиум, ИФТТ, София, (2006) 41-47

  10. Г. Камишева, Основоположници на експерименталната физика в Българската академия на науките, Balkan Conference of Young Scientists, СУБ, Пловдив, т. 5 (2006) 382-388

  11. Г. Камишева, Основоположници на теоретичната физика в Българската академия на науките, Balkan Conference of Young Scientists 2005, СУБ, Пловдив, т. 5 (2006) 376-381

  12. S. Manning, C. Bronk Ramsay, W. Kutschera, T. Higham, B. Kromer, P. Steier, E. Wild, Chronology for the Aegean Late Bronze Age 1700-1400 B.C., Science (312) 565-569 (2006)

  13. G. Mateos, J. Navarro, The uses of neutrinos: a historical perspective, European Journal of Physics, 27, 1257-1264 (2006)

  14. J. Navarro, Early Attempts to Detect the Neutrino at the Cavendish Laboratory, Physics in Perspective, 8, 64-82 (2006)

  15. J. Navarro, Imperial incursions in late-Victorian Cambridge: J.J. Thomson and the domains of the Physical Sciences, History of Science, 44, 469-495 (2006)

  16. A. Oliveira, A History of the Principle of Virtual Works, IFToMM Workshops Lectures, Cornell University, Ithaca, N. Y., Setembro (2006)

  17. A. Oliveira, A Evolucao do Conceito Fisico de Trabalho no Contexto das Maquinas, Tese de doutorado defendida no Programa de Historia da Ciencia da Tecnica e Epistemologia em Novembro (2006)

  18. P. Steier, R. Drosg, M. Fedi, W. Kutschera, M. Schock, D. Wagenbach, E. Wild, Radiocarbon determination of particulate organic carbon in non-temperated, alpine glacier ice, Radiocarbon, 48(1) 69-82 (2006)

2005
  1. A. Borrelli, Mathematical notation as a philosophical instrument, In: S. Zielinski. S. Wagnermaier (eds.), Variantology 1. On Deep Time Relations of Arts, Sciences and Technologies (Cologne: Walther Konig, 2005) 279-296

  2. M. Campisi, On the mechanical foundation of thermodynamics: The generalized Helmholtz theorem, Studies in History and Philosophy of Modern Physics (36) 275–290 ( 2005)

  3. R. Golser, H.Gnaser, W. Kutschera, A. Priller, P. Steier, A. Wallner, M. Cizek, J. Horacek, W. Domcke, Experimental and Theoretical evidence for Long-Lived Molecular Hydrogen Anions H2? and D2, ?Phys. Rev. Lett. (94) 223003 (2005)

  4. P. Holmberg, H. Nevanlinna, Geomagnetism in Finland: the lasting legacy of Johan Jakob Nervander, Europhysics News, 36(3) 82-85 (2005)

  5. G. Kamisheva, Lectures in Mathematical and Theoretical Physics at the University of Sofia by Professor Georgi Ivanoff Maneff (1921 – 1944). – Prof. G. Manev’s Legacy in Contemporary Astronomy, Theoretical and Gravitational Physics (2004), Edited by V. Gerdjikov and M. Tsvetkov, Heron Press, Sofia (2005) 45-53

  6. Г. Камишева, Особености в обучението по физика при създаването на Централното Епархийско училище в Пловдив, Развитие и разпространение на физическите знания в България, Научен симпозиум, Унив. изд., Пловдив (2005) 79-82

  7. Г. Камишева, Кратка научна биография на професор Георги Иванов Манев (15.01.1884–15.07.1965), Развитие и разпространение на физическите знания в България, Научен симпозиум, Унив. изд., Пловдив (2005) 38-44

  8. Г. Камишева, Постиженията на физическите науки в БАН, Светът на физиката (3) 314-323 (2005)

  9. W. Kutschera, Progress in isotope analysis at ultra-trace level by AMS, Int. J. Mass Spectrom (242) 145-160 (2005)

  10. K. Liu, B. Han, Z. Guo, X. Wu, S. Yuan, W. Kutschera, H. Ma, A. Priller, P. Steier, E. Wild, C. Zhao, AMS radiocarbon dating of bone samples from the Xinzhai site in China, Radiocarbon, 47(1) 21-25 (2005)

  11. D. Monaldi, Life of µ: The Observation of the Spontaneous decay of Mesotrons and its Consequences, 1938–1947, Annals of Science, 62(4) 419-455 (2005)

  12. J. Navarro, J.J. Thomson on the nature of matter: corpuscles and the continuum, Centaurus, 47, 259-282 (2005)

  13. J. Navarro, More than two faces of common sense, Acta Philosophica, 14 (2), 287-297 (2005)

  14. A. Oliveira, Challengesto Technological Education in History, Congresso Brasileiro de Engenharia Mecanica, COBEM 2005, Ouro Preto, M. G., Novembro (2005)

  15. A. Oliveira, A Importancia Historica do Conceito Fisico de Trabalho para o Estudo das Maquinas”, X Seminario Nacional de Historia da Ciencia e da Tecnologia, B. H., MG, Outubro (2005)

  16. M. Tsvetkov, Georgi Ivanov Manev (1884-1965) a brief biography, – In: Prof. G. Manev’s legacy in contemporary astronomy, theoretical and gravitational physics, Edited by V. Gerdjikov and M. Tsvetkov, Sofia, Heron press Science series (2005) p. 12-13

  17. M. Tsvetkov, The correspondence between G. Manev and A. Einstein, – In: Prof. G. Manev’s legacy in contemporary astronomy, theoretical and gravitational physics, Edited by V. Gerdjikov and M. Tsvetkov, Sofia, Heron press Science series (2005) p. 19-30

  18. E. Wild, M. Teschler-Nicola, W. Kutschera, P. Steier, E. Trinkhaus, W. Wanek, Direct dating of Early Upper Palaeolithic human remains from Mladec, Nature (435) 332-335 (2005)

2004
  1. P. Collon, W. Kutschera, Z.-T. Lu, Tracing noble gas radionuclides in the environment, Annual Rev. Nucl. Part. Sci. (54) 39-67 (2004)

  2. F. Dellinger, W. Kutschera, K. Nicolussi, P. Schiessling, P. Steier, E. Wild, 14C calibration with AMS from 3500 BC to 3000 BC, derived from a new high-elevation stone-pine tree-ring chronology, Radiocarbon 46(1) 337-385 (2004)

  3. H. Goenner, On the history of unified field theory 1914–1933, Part I, Living Review Relativity, Springer, 7(1) 1-153 (2004)

  4. P. Holmberg, The Physical Tourist. Physics in Helsinki, Physics in perspective, 6 (2004) 76-113

  5. Г. Камишева, Музей на физическите науки в България. – Светът на физиката (4) 371-372 (2004)

  6. Г. Камишева, Сесия в памет на академик Милко Борисов. – Светът на физиката (1) 68-70 (2004)

  7. A. Kostov, Les etudiants roumains, serbes et bulgares a l'Ecole des Ponts et Chaussees (Paris) pendant la seconde moitie du 19e et au debut du 20e s, Etudes balkaniques, (2) 72-87 (2004)

  8. A. Martinez, "Ritz, Einstein, and the emission hypothesis", Physics in Perspective, vol. 6 (2004) 4-28

  9. J. Navarro, New entities, old paradigms: elementary particles in the 1930s, Llull, 27, 435-464 (2004)

  10. J. Navarro, The Contribution of Coulomb to Applied Mechanics, International Symposium on History of Machines and Mechanisms, Cassino, Italia, Maiode (2004)

  11. G. Smith, The methodology of the Principia, The Cambridge Companion to Newton, I B Cohen and G E Smith, Eds., Cambridge, UK, Cambridge University Press, pp.138–173 (2004)

  12. P. Steier, R. Golser, W. Kutschera, A. Priller, C. Vockenhuber, S. Winkler, VERA, an AMS facility for "all" isotopes, Nucl. Instr. and Meth. B 223-224 (2004) 67-71

  13. C. Vockenhuber, F. Oberli, M. Bichler, I. Ahmad, G.Quitte, M. Meier, A.N. Halliday, D. Lee, W. Kutschera, P. Steier, R. Gehrke, R. Helmer, New Half-Life Measurement of 182Hf: Improved Chronometer for the Early Solar System, Phys. Rev. Lett. (93) 172501 (2004)

2003
  1. P. Holmberg, Northern Light Studies and Geomagnetic Observations in Finland in the 19th Century, Volta and the History of Electricity, (ed. Fabio Bevilacqua & Enrico A. Giannetto) Universita degli studi di Pavia; editore Ulrico Hioepli, Milano (2003) 183-192

  2. G. Kamisheva, History of the Mathematical and Theoretical Physics in the Sofia University (1925–1935). – Proceedings of Fifth General Conference of the Balkan Physical Union, Vrnjacka Banja, Serbia and Montenegro, 2003, BPU, Belgrade (2003) 1999-2002

  3. M. Matthews, Mario Bunge: Physicist and philosopher, Science and Education, vol. 12 (2003) 431-444

  4. Г. Камишева, In memoria ст.н.с. А. Ф. Ваврек (1947–2003), Светът на физиката (4) с. 385 (2003)

  5. Г. Камишева, ИФТТ "Акад. Г. Наджаков" на 30 години, Светът на физиката (1) 58-60 (2003)

  6. Г. Камишева, Историята на физическите науки в творчеството на академик Милко Борисов (18.02.1921–05.11.1998), Сесия в памет на академик Милко Борисов, Еп. К. Преславски, Шумен (2003) 18-31

  7. Г. Камишева, А. Г. Петров, Тридесет години Институт по физика на твърдото тяло при БАН – исторически корени и настояще, Списание на БАН (1) 80-86 (2003)

2002
  1. J. Bennett, Knowing and doing in the sixteenth century: What were instruments for? BJHS (36) 129-150 (2002)

  2. B. Carazza, N. Robotti, Explaining Atomic Spectra within Classical Physics: 1897-1913, Annals of Science, vol. 59 (2002) 299-320

  3. P. Charbonneau, The rise and fallof the first solar cycle model, Journal for the history of astronomy (33) 351-372 (2002)

  4. J. Navarro, Una interpretacion milenarista de Karl Popper, Thematha, 28, 141-160 (2002)

  5. J. Navarro Loidi, Los libros matematicos y cientificos de la biblioteca del colegio de los jesuitas de Quito (s. XVII-s.XVIII), Archives internationales d'histoire des sciences, n? 148, v. 52: 198-211 (2002)

  6. Г. Камишева, Някои особености в историята на физическите науки в България, Светът на физиката (2) 152-159 (2002); в От кварките до вселената, съст. Д. Динев, София, СФБ (2005) 217-227

2001
  1. M. Dizer, Observatories and astronomical instruments, In: History of Science and Technology in Islam, v. 4, Part 1, Ch. 2.2(b) Amazon (2001)

  2. J. Earman, Lambda: The Constant That Refuses to Die, Archive for the History of the Exact Sciences, 55 (3) 189–220 (2001)

  3. R. Hall, Mechanics, In: History of Science and Technology in Islam, v. 4, Part 1, Ch. 2.3(a) Amazon (2001)

  4. E. Kheirandish, Optics: Highlights from Islamic lands, In: History of Science and Technology in Islam, v. 4, Part 1, Ch. 2.3(b) Amazon (2001)

  5. A. Kostov, Entire L’Influence Occidentale et les Efforts Nationaux: Le Choix des Systemes et du Financement des Chemins de fer Dans Les Balkans (1860-1912), Etudes balkaniques (2-3) 11-20 (2001)

  6. H. Kragh, From Geochemistry to Cosmochemistry: The Origin of a Scientific Discipline, 1915-1955, in C. Reinhold (Ed.), Chemical Sciences in the 20th Century: Bridging Boundaries, Weinheim: Wiley-VCH (2001) 160-190.

  7. S. Nasr, Cosmology, In: History of Science and Technology in Islam, v. 4, Part 1, Ch. 3.1 Amazon (2001)

  8. J. Samso, Astronomical tables and theory; In: History of Science and Technology in Islam, v. 4, Part 1, Amazon (2001) Ch. 2.2(a); Astrology, Ch. 2.2(c)

  9. Г. Камишева, А. Ваврек, Професор Манев и споровете за математическа или теоретична физика в университета (1921 – 1944), Сборник доклади 29 Национална конференция по въпросите на обучението по физика, СФБ, Смолян, (2001) 183-190

  10. Г. Камишева, А. Ваврек, Нови данни за професора от Софийския университет Георги Иванов Манев (1884 – 1965), Сборник доклади 29 Национална конференция по въпросите на обучението по физика, СФБ, Смолян (2001) 179-182

2000
  1. A. Harvey, E, Schucking, Einstein’s Mistake and the Cosmological Constant, American Journal of Physics, 68(8) 723–28 (2000)

  2. G. Kamisheva, A. Vavrek, Milestones in the development of Physics in the Sofia University (1889–1945). – Bulgarian Journal of Physics, 27(4) 55-58 (2000)

  3. G. Kamisheva, A. Vavrek, Contents of the courses in Physics in the Sofia university (1889–1945). – Bulgarian Journal of Physics, 27(4) 59-62 (2000)

  4. G. Kamisheva Porphyry Bachmetjew 1860 –1913. – Biographies of the European Physicists (2000)

  5. G. Kamisheva Georges Nadjakoff 1896–1981. – Biographies of the European Physicists (2000)

  6. Г. Камишева, А. Ваврек, Преподаването на експерименталната физика в Софийския университет до 1949 година, Сборник доклади 28 национална конференция по въпроси на обучението по физика, СФБ, Свищов (2000) 334-337

  7. H. Kragh, Confusion and Controversy: Nineteenth-Century Theories of the Voltaic Pile, Nuovo Voltiana (1) 133-157 (2000)

  8. J. Navarro, El neutron de Chadwick y su interpretacion, Cronos, 3 (2), 273-295 (2000)

1999
  1. P. Holmberg, Friedrich Wilhelm August Argilander (1799–1875) – the first professor of astronomy in Finland, Beitrage zur Astronomiegeschichte, Bd. 2 (1999) 189-195

  2. P. Holmberg, The anatomy of the killer whale middle ear (Orcinus orca) (together with others), Hearing Research, 133 (1999) 61-70

  3. P. Holmberg, History of science as a way of teaching science to non-science majors, History of Science and Technology in Education and Trainibng in Europe, Conference Proceedings ed. Claude Debru, Strasbourg, 25-26 June 1998, Pucl. by European Communities (1999) 143-147

  4. P. Holmberg, History of science in European countries: Finland (together with others), History of Science and Technology in Education and Trainibng in Europe, Conference Proceedings ed. Claude Debru, Strasbourg 25-26 June 1998, Publ. by European Communities (1999) 315-319

  5. W. Knorr, Sacrobosco's Quadrans: Date and Sources, Journal for the History of Astronomy (28) 187-222 (1997)

  6. H. Kragh, Steady-state cosmology and general relativity: reconciliation or conflict? In Goenner, H. et al. (eds.) The Expanding Worlds of General Relativity, Birkhдuser, Boston (1999) pp. 377–402

  7. A. G. Petrov, Historical Remarks, – In: The Lyotropic state of matter. Molecular physics and living matter physics, N.Y. – L., Gordon and Bredch Publs (1999) p. 12-17

  8. A. Ваврек, Г. Камишева, Присъждане на докторска научна степен по физика в Софийския университет до 1950 г, Светът на физиката (2) 130-134 (1999)

  9. L. Krlin, Recenze (J. Polkinghorne, The Faith of a Physicist, Princeton University Press, Princeton, New Jersey, 1994), Universum 31–32, 1999, str. 73

1998
  1. J. Bennett, Practical Geometry and Operative Knowledge, Configurations, 6 (1998)

  2. J. Bennett, Quadrant, in R. Bud, D. Warner (eds), Instruments of Science: An Historical Encyclopedia, New York, London (1998) 501-503

  3. A. Vavrek, The Bulgarian academy of sciences in transition from learned society to a totalitarian academy (1944 – 1949), Science & Education (1998) № 7, p. 301–306

  4. Г. Камишева, 180 години от рождението на първия учен метеоролог българин Д-р Димитър Стефанов Мутьев (4 септември 1818–13 януари 1864), Светът на физиката (2) 145-148 (1998)

1996
  1. R. Adair, Symmetries and Meson Decays, In: H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 185-197 (1996)

  2. U. Becker, Test of QED and Photoproduction of Vector Mesons, In: H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 199-225 (1996)

  3. J. Branson, Gluon Jets, In: H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 101-121 (1996)

  4. R. Dalitz, Kaon Decays to Pions, In: H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 163-183 (1996)

  5. G. Hooft, Gauge Theory and Renormalization, In: H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 37-53 (1996)

  6. P. Holmberg, From dogmatic discussions to observations and planned experiments: some examples from the early aurora borealis research in Finland, Science and Education (5) 267-276 (1996)

  7. M. Gell-Mann, Indirect Approaches to Fundamental Theory, In: H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 1-7 (1996)

  8. S. Glashow, Quark Families and Flavor — Changing Neutral CurrentsIn: H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 445-451 (1996)

  9. D. Gross, Asymptotic Freedom, Confinement and QCD, In: H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 75-99 (1996)

  10. C. Jarlskog, Flavor Mixing and CP Violation, In: H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 453-464 (1996)

  11. T. Kinoshita, Quantum Electrodynamics — From a Personal Perspective, In: H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 9-26 (1996)

  12. J. Navarro Loidi, Les differentes versions des Elements d'Euclide publiees en espagnol au XVIe., XVIIe et XVIIIe. siecles. Permanence ou changement, in: Paradigms and Mathematics, Elena Ausejo y Mariano Hormigon (ed.), Madrid, Siglo XXI, 427-501 (1996)

  13. L. Okun, Vacua, Vacuum: the Physics of Nothing, Chapter in H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 67-74 (1996)

  14. O. Piccioni, The Discovery of the Muon, Chapter in H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 143-142 (1996)

  15. A. Rujula, QCD in “Her” Maiden Years, In: H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 123-141 (1996)

  16. A. Vavrek, G. Kamisheva, M. Borissov, Dissemination of Newton’s Mechanics on Bulgarian Soil During the Bulgarian National Revival. – Newtonian physics and its dissemination in the wider Balkan region, Edited by G. N. Vlahakis, Symposium, 17-18 December 1993, Athens (1996) 129-144

  17. A. Vavrek, The Bulgarian academy of sciences in transition from learned society to totalitarian academy (1944–1949), – In: Proc. International conference on History and Philosophy of Physics in Education. August 21–24, 1996, Bratislava, Slovakia (1997) p. 102-106

  18. A. Vavrek, 50–th anniversary of establishing the Institute of physics at the Bulgarian academy of sciences and 100 years from the birth of its foundes - the Academician Georgi Nadjakoff. – In: Future directions in thin films science and technology, Proceedings 9th ISCMP, Varna (1996) p. IX

  19. G. Voss, Electron-Positron and Electron-Proton Storage Ring Colliders, In: H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 465-487 (1996)

  20. S. Weinberg, Electroweak Reminiscences, Chapter in H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 27-36 (1996)

  21. C. Yang, Magnetic Monopoles, Fiber Bundles, and Gauge Fields, In: H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 55-65 (1996)

  22. A. Zichichi, Foundations of Sequential Heavy Lepton Searches, In: H. Newman, T. Ypsilantis (Eds), History of Original Ideas and Basic Discoveries in Particle Physics, International Conference Proceedings, Erice, Sicily, 27.07-04.08.1994, Springer, p. 227-275 (1996)

1995
  1. S. Devons, Rutherford's Laboratory, In: A Hundred Years and More of Cambridge Physics, First Edition, 1974; Second Edition, 1980; Third Edition 1995

  2. P. Holmberg, Early x-rays in Finland, The Emergence of Modern Physics (ed. D. Hoffman, F. Bevilacqau & R.H. Stuewer), Proc. Conf. Commemorating a Century of Physics, Berlin, 22-24 March (1995) 89-95

  3. A. Howie, Cavendish Research in West Cambridge, In: A Hundred Years and More of Cambridge Physics, First Edition, 1974; Second Edition, 1980; Third Edition 1995

  4. A. P. French, The Cavendish in Wartime, In: A Hundred Years and More of Cambridge Physics, First Edition, 1974; Second Edition, 1980; Third Edition 1995

  5. O.R. Frisch, Nuclear Physics in the Modern Cavendish, In: A Hundred Years and More of Cambridge Physics, First Edition, 1974; Second Edition, 1980; Third Edition 1995

  6. H. Kragh, Cosmology between the wars: the Nernst-Macmillan alternative. J. Hist. Astron. (26) 93–115 (1995)

  7. D. Moralee, The First Ten Years, In: A Hundred Years and More of Cambridge Physics, First Edition, 1974; Second Edition, 1980; Third Edition 1995

  8. M. F. Perutz, Sir Lawrence Bragg, In: A Hundred Years and More of Cambridge Physics, First Edition, 1974; Second Edition, 1980; Third Edition 1995

  9. M. F. Perutz, Molecular Biology, In: A Hundred Years and More of Cambridge Physics, First Edition, 1974; Second Edition, 1980; Third Edition 1995

  10. B. Pippard, The Move to West Cambridge, In: A Hundred Years and More of Cambridge Physics, First Edition, 1974; Second Edition, 1980; Third Edition 1995

  11. F.G. Smith, Radio Astronomy, In: A Hundred Years and More of Cambridge Physics, First Edition, 1974; Second Edition, 1980; Third Edition 1995

  12. G.P. Thomson, J.J. and the Cavendish, In: A Hundred Years and More of Cambridge Physics, First Edition, 1974; Second Edition, 1980; Third Edition 1995

  13. Н. Балабанов, Скритата симетрия на Еми Ньотер, Светът на физиката (1) 56-61 (1995)

  14. Л. Вацкичев, Кой изобрети радиото, Светът на физиката (3) 39-41 (1995)

  15. Л. Митрани, Сто години рентгенови лъчи, Вилхелм К. Рьонтген, Светът на физиката (3) 3-10 (1995)

1994
  1. L. Drury, F. Aharonian, H. Voelk, The gamma-ray visibility of supernova remnants. A test of cosmic ray origin (1994) A&A 287 959

  2. D. King, Rubc, in The Encyclopaedia of Islam, 2nd edition, Leiden (1994) vol. 8, 574-575

  3. A. Slavin, A Brief History and Philosophy of Physics,

  4. A. Vavrek, G. Kamisheva, M. Borissov, Physics as a Subject in the Bulgarian schools until the end of the World War I, Proceedings Supplement of the Balkan Physics Letters, 2(2), 1337-1341 (1994)

  5. М. Борисов, А. Ваврек, Г. Камишева, Физически науки, Из историята на Българското книжовно дружество 1869 – 1911, М. Дринов, София (1994), с. 115-133

  6. А. Ваврек, Г. Камишева, М. Борисов, Физиката в учебните планове и програми на българските прогимназии до 1925 година, Светът на физиката (4) 37-44 (1994)

  7. П. Василев, Феноменът Капица, Светът на физиката (2) 61-66 (1994)

  8. Н. Янева, Бруно Понтекорво, Светът на физиката (2) 38-45 (1994)

1993
  1. G. Bierhalter, Das Hamiltonsche Prinzip und J. J. Thomsons Versuch einer mechanishen Grundlagen der Thermodynamik, Centaurus (36) 102–116 (1993)

  2. G. Bierhalter, Helmholtz’s mechanical foundation of thermodynamics. Trans. D. Cahan. In Hermann von Helmholtz and the foundations of nineteenth-century science, ed. D. Cahan, 433–458. Berkeley: University of California Press (1993)

  3. P. Holmberg, Radiation safety and quality assurance in x-ray diagnostics. Measurements in some radiological clinics in Tartu (together with others), 1895–1995 – The centuary of x-rays, Tartu Ulikooli Toimetised, No. 965 (1993) 50-75

  4. P. Holmberg, Ionizing radiation in medicine and health protection (together with others), 1895–1995 – The century of x-rays, Tartu likooli Toimetised, No. 965 (1993) 38-49

  5. А. Ваврек, Г. Камишева, М. Борисов, Приносът на гръцките и елино-българските училища за преподаване и популяризиране на физиката сред българите, Списание на БАН (2) 70-76 (1993)

  6. Г. Камишева, Физиката в свищовското училище на Емануил Васкидович, Светът на физиката (3) 169-172 (1993)

1992
  1. G. Bierhalter, Von L. Boltzmann bis J. J. Thomson : die Versuche einer mechanischen Grundlegung der Thermodynamik (1866–1890). Archive for History of Exact Sciences (44) 25–75 (1992)

  2. P. Holmberg, The history of physics in Finland 1828–1918, The history of learning and science in Finland 1828–1918, Societas Scientiarum Fennica, Helsinki, No. 5a (1992) 267 p.

  3. М. Борисов, А. Ваврек, Г. Камишева, Някои характерни особености в развитието на обучението по физика в българските средни училища, Физика (3), с. 3-11 (1992)

  4. Г. Камишева, Как се стига до създаване на самостоятелна специалност физика в Софийския университет, Светът на физиката (2) 104-109 (1992)

1991
  1. M. Borissov, A. Vavrek, G. Kamisheva, Survey of the History of Education in Physics in Bulgaria. – Proceedings of the 1st General Conference of the Balkan Physical Union, Tessaloniki, 1991, Balkan Pysical Union 1, Athens (1991), No 1, p. 21-23

  2. Г. Камишева, М. Борисов, А. Ваврек, Някои документи около конфликта на Порфирий Иванович Бахметьев със Софийския университет, Физико-математическо списание (1–2) 3-15 (1991)

  3. Г. Стоева, Физиците се събраха в Солун, Знаме, Търговище, № 83, 5 ноември 1991

1990
  1. G. Bierhalter, Zyklische Zeitvorstellung, Zeitrichtung und die frьhen Versuche einer Deduktion des Zweiten Hauptsatzes der Thermodynamik, Centaurus (33) 345–367 (1990)

  2. R. Fritzius, The Ritz-Einstein Agreement to Disagree, Physics Essays, vol. 3 (1990) 371-374

  3. J. Reid, Eighteenth century Scottish University instruments the remarkable professor Copland, Bulletin Science Instrum Society (24) 2-8 (1990)

1989
  1. Г. Камишева, 120 години от създаването на първата пълна гимназия в България, Бюлетин на ДФБ (1) 43-48 (1989)

  2. J. Reisner, An early history of the electron microscope, In Advances in Electronics and Electron Physics, Academic Press (1989)

  3. J. Reisner, An Early History of the Electron Microscope in the United States, Electron Physics (73) 133-231 (1989)

1988
  1. М. Борисов, Г. Камишева, Физиката в Пловдивското класно училище до Освобождението, Физика (6) 34-41 (1988)

  2. Г. Камишева, М. Борисов, Обучението по физика в българското класно училище "Св. Кирил и Методий" в Пловдив до Освобождението, Светла летопис (120 години от създаването на първата гимназия в България – ЕСПУ "Димитър Благоев"), Хр. Г. Данов, Пловдив (1988) 38-52

1987
  1. G. Bierhalter, Wie erfolgreich waren die im 19. Jahrhundert betriebenen Versuche einer mechanischen Grundlegung des zweiten Hauptsatzes der Thermodynamik?, Archive for History of Exact Sciences (37) 77–99 (1987)

  2. L. Drury, E. Dorf, Simple adaptive grids for 1-D initial value problems (1987) J. Comp. Phys. 69 175

  3. Г. Камишева, Относно източниците, използувани от Найден Геров при написване на първия български учебник по физика, Бюлетин на Дружеството на физиците (3), 33-36 (1987)

1986
  1. J. Bennett, The mechanics’ philosophy and mechanical philosophy, History of Science (24) 1-28 (1986)

  2. J. Burton, Robert FitzRoy and the early history of the Meteorological Office, British Journal for the History if Science (19) 1470176 (1986)

  3. R. Wenger, Ernest C. G. Stueckelberg von Breidenbach - etude biographique, Geneve, Universite de Geneve, Biblioteque de l'Ecole de Physique (1986) p. 42

1985
    A. Baracca, R. Rechtman, Einstein’s statistical mechanics, Revista Mexicana de Pisica, 31(4) 695-722 (1985)
  1. G. Bierhalter, Die mechanischen Entropie- und Disgregationskonzepte aus dem 19. Jahrhundert : ihre Grundlagen, ihr Versagen und ihr Entstehungshintergrund, Archive for History of Exact Sciences (32) 17–41 (1985)

  2. R. Crease, Ch. Mann, The physicists that physics forgot: Baron Stueckelberg's brilliantly obscure career, In: The Science, 25 (4) 18-23 (1985)

1984
  1. М. Борисов, Г. Камишева, Д-р Димитър Мутев и българската физика, Природа (1) 77-82 (1984); (2) 68-73 (1984)

1983
  1. G. Bierhalter, Die v. Helmholtzschen Monozykel-Analogien zur Thermodynamik und das Clausiussche Disgregationskonzept, Archive for History of Exact Sciences (29) 95–161 (1983)

  2. G. Bierhalter, Zu Szilys Versuch einer mechanischen Grundlegung des zweiten Hauptsatzes der Thermodynamik. Archive for History of Exact Sciences (28) 25–35 (1983)

  3. L. Drury, An introduction to the theory of diffusive shock acceleration of energetic particles in tenuous plasmas, Reports on Progress in Physics, 46(8) 973-1027 (1983)

1982
  1. G. Bierhalter, Das Virialtheorem in seiner Beziehung zu den mechanischen Grundlegungen des zweiten Hauptsatzes der Wдrmelehre. Archive for History of Exact Sciences (27) 199–211 (1982)

  2. N. Hahn, Medieval Mensuration: Quadrans vetus and Geometrie due sunt partes principales, Transactions of the American Philosophical Society, 72 (1982) part 8

1981
  1. G. Bierhalter, Boltzmanns mechanische Grundlegung des zweiten Hauptsatzes der Warmelehre aus dem Jahre 1866, Archive for History of Exact Sciences (24) 195–205 (1981)

  2. G. Bierhalter, Clausius’ mechanische Grundlegung des zweiten Hauptsatzes der Warmelehre aus dem Jahre 1871, Archive for History of Exact Sciences (24) 207–220 (1981)

  3. G. Bierhalter, Zu Hermann von Helmholtzens mechanischer Grundlegung der Warmelehre aus dem Jahre 1884, Archive for History of Exact Sciences (25) 71–84 (1981)

  4. B. Buchanan, M. Tucker, The Manufacture of Gunpowder: A study of the Documentary and physical evidence relating to the Woolley Powder Works near Bath, In: Industrial Archeology Review, 5(3) 185-202 (1981)

  5. D. King, The Origin of the Astrolabe According to the Medieval Islamic Sources, Journal for the History of Arabic Science (5) 43–83 (1981)

1980
  1. L. Drury, On normal modes of gas sheets and discs (1980) MNRAS 193 337

  2. R. Jones, The complete physicist James Clerk Maxwell 1831-1879, Yearbook of the Royal Society of Edinburgh (1980) 5-23

1979
  1. E. Amaldi, The years of reconstruction. Perspectives of Fundamental Physics, edited by Schaerf C. Harwood. Academic Publisher, New York (1979) 379–455

  2. J. Cawood, The magnetic crusade science and polotics in early Victorian British, Isis (70) 492-518 (1979)

1977
  1. P. Heimann, Geometry and Nature: Leibniz and Jahann Bernoully's theory of motion, Centaurus 21(1) 1-26 (1977)

1975
  1. S. Drake, The Role of Music in Galileo's Experiments, Scientific American, p. 98, June 1975

  2. P. Forman, "Walter Ritz" in Dictionnary of Scientific Biographies, New York (1975) vol. 11, 475-481

1974
  1. J. North, The Astrolabe, Scientific American, 230 (1974) pp. 96-106

1973
  1. R. DeKosky, Spectroscopy and the Elements in the Late Nineteenth Century: The Work of Sir William Crookes, Brit. J. Hist. Sci. (6) 400-423 (1973)

  2. R. Jopnes, James Clerk Maxwell 1856-1960, Notes Rec. Royal Soci (28) 57-81 (1973)

1972
  1. C. Lanczos, Einstein's path from the special to general relativity, In General Relativity: Papers in Honour of J. L. Svnge, ed. L. 0rRaifeartai-gh, Oxford: Clarendon (1972) pp. 5-19

1971
  1. H. Bernhardt, Uber die Entwicklung und Bedeutung der Ergodenhypothese in den Anfдngen der statistischen Mechanik. NTM Zeitschrift fьr Geschichte der Wissenschaften, Technik und Medizin (8) 13–25 (1971)

1970
  1. A. Apolin, Die Geschichte der Gravitation, Philosophia Natur (12) 156-172 (1970)

  2. J. Ashbrook, Names on the back of the moon, Sky Telesc. (40) 262-266 (1970)

  3. G. Aujac, La spheropee, ou la mechanique au service de la decouverte du monde, Revue Hist. Sci. Applic (23) 93-107 (1970)

  4. S. Devons, L. Hartmann, A history of physics laboratory, Physics Today, 23(2) 44-49 (1970)

  5. J. Duck, Astronomie in Steim, Sterne (46) 149-157 (1970)

  6. M. Gardner, Some mathematical curiosities embedded in the solar system, Scient. Am. 222(4) 108-112 (1970)

1969

    P. Aufgebauer, Die Gregorianische Kalenderreform in Urteil zeitgenossischer Astronomen, Steme (45) 118-120 (1969) H. Barrell, Kew Observatory and the National Physical Laboratory, Meteorological Magazine (98) 171-180 (1969)

    E. Daub, Probability and thermodynamics: The reduction of the second law, Isis (60) 318–330 (1969)

1967

    J. Cockroft, Georg Hevesy (1885–1966) Biographical memoirs of the Follows of the Royal Society, Vol. 13 (1967)

1965

    J. Fox, Evidence against emission theories, American Journal of Physics, vol. 33 (1965) 1 - 17

1964
  1. G. Harig, Galilei und sein Kampf gegen die aristotelisch-scholastische Naturlehre, In: Galileo Galilei 1564-1964, Jenaer Reden und Schriften, Friedrich Schiller Universitat, Jena, 1964, 14-44 [ISSP-BAS Museum, Kalitzin fund]

  2. H. Lambrecht, Phasen astronomisch-astrophysikalischer Forschung, In: Galileo Galilei 1564-1964, Jenaer Reden und Schriften, Friedrich Schiller Universitat, Jena, 1964, 45-52 [ISSP-BAS Museum, Kalitzin fund]

  3. W. Schutz, Die Experimente Galileis-Geburtsstunde der neuzeitlichen Physik, In: Galileo Galilei 1564-1964, Jenaer Reden und Schriften, Friedrich Schiller Universitat, Jena, 1964, 53-72 [ISSP-BAS Museum, Kalitzin fund]

  4. E. Schmutzer, Galilei - Newton - Einstein, In: Galileo Galilei 1564-1964, Jenaer Reden und Schriften, Friedrich Schiller Universitat, Jena, 1964, 73-88 [ISSP-BAS Museum, Kalitzin fund]

1962

    J. Fox, Experimental evidence for the second postulate of special relativity, American Journal of Physics, vol. 30 (1962) 297-300.

1956

    G. Gamow, The Evolutionary Universe, Scientific American, 195(3) 136–56 (1956)

1955

    H. Kondo, History and the Physicist, American Journal of Physics, (23) 430 (1955)

1953

    M. Hesse, Models In Physics, British Journal of the Philosophy of Science, vol. IV (15) 198-214 (1953)

1952

    M. Hesse, Operational Definition And Analogy In Physical Theories, British Journal of the Philosophy of Science, vol. II (8) 281-294 (1952)

1945

    W. Denny, Physics and the history of ideas, American Journal of Physics (13) 242 (1945)

1916

    R. Walker, James Clerk Maxwell, Aberdin Univ. Rev. (3) 13-21 (1916)

1908
  1. K.B. Hasselberg, Award ceremony speech, The Nobel Prize in Chemistry, 1908

  2. E. Rutherford The chemical nature of the Alpha particles from radioactive substances, Nobel Lecture, Stockholm, 1908

Created: 5 October 2016
Updated: 30 July 2021

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