This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Adler R., Bazin M., Schiffer M., Introduction to General Relativity, McGraw-Hill, Inc. (1975).Search in Google Scholar
Noerdlinger P. D., Geodesics of Robertson-Walker Universes, Physical Review, Volume 186(5), pp. 1347 – 1351 (1969).Search in Google Scholar
Mazilu N., (a) The Physical Basis of Procopiu’s Quantization, to appear in Memoirs of the Scientific Sections of the Romanian Academy, Tome XLVI; prepublished at viXra:2308.0135v1; (b) The Instanton: a Conspicuous Case of Scale Transition, to be published (2023).Search in Google Scholar
Einstein A., (a) A New Formal Interpretation of Maxwell’s Field Equations of Electrodynamics, English translation of the German original from Sitzungsberichte der Preussischen Akademie der Wissenschaften, 1916, pp. 184 – 188; reproduced in The Collected Papers of Albert Einstein, Volume 6, Princeton University Press, as Document 27; (b) The Foundation of the General Theory of Relativity, English translation of the German original from Annalen der Physik, Volume 49, pp. 769 – 822; reproduced in The Collected Papers of Albert Einstein, Volume 6, Princeton University Press, as Document 30 (1916).Search in Google Scholar
Einstein A., Cosmological Considerations on the General Theory of Relativity, in The Principle of Relativity, a Collection of Original Memoirs on the Special and General Theory of Relativity, Dover Publications, 1923, 1952, 2003, English translation of the German original from Sitzungsberichte der Preussischen Akademie der Wissenschaften, 1917 (1917).Search in Google Scholar
Einstein A., Do Gravitational Fields Play an Essential Part in the Structure of the Elementary Particles of Matter?, The Collected Papers of Albert Einstein, Volume 7, Princeton University Press, Document 17; English translation of the German original from Sitzungberichte der Königlich Preussische Akademie der Wissenschaften, Berlin 1919, pp. 349 – 356 (1919).Search in Google Scholar
Renn J., Schemmel M., Gravitation in the Twilight of Classical Physics: the Promise of Mathematics, Volume 4 in The Genesis of General Relativity, Jürgen Renn Editor, Springer (2007).Search in Google Scholar
Mie G., Grundlagen einer Theorie der Materie, (Dritte Mitteilung, Schluss), Annalen der Physik, IV Folge, Band 40(1), pp. 1 – 66 (1913).Search in Google Scholar
Kasner E., (a) An Algebraic Solution of the Einstein Equations, Transactions of the American Mathematical Society, Volume 27(1), pp. 101 – 105; (b)Separable Quadratic Differential Forms and Einstein Solutions, Proceedings of the National Academy of the United States, Volume 11, pp. 95 – 96 (1925).Search in Google Scholar
Kasner E., (a) Einstein’s Theory of Gravitation: Determination of Field by Light Signals, American Journal of Mathematics, Volume 43(1), pp. 20 – 28(b) The Impossibility of Einstein Fields Immersed in Flat Space of Five Dimensions, American Journal of Mathematics, Volume 43(2), pp. 126 – 129; (c) Geometrical Theorems on Einstein’s Cosmological Equations, American Journal of Mathematics, Volume 43(4), pp. 217 – 221; this article is reproduced as a ‘Golden Oldie’ in the journal General Relativity and Gravitation, Volume 40(4), pp. 865 – 876 (1921):Search in Google Scholar
Mazilu N., The Case for Procopiu’s Quantum, Memoirs of the Scientific Sections of the Romanian Academy, Tome XLV, pp. 51 – 124; prepublished at viXra:2207.0054v1 (2022).Search in Google Scholar
Mazilu N., The Fundamental Physics of de Broglie’s Waves: Part One, viXra:2012.0021 (2020).Search in Google Scholar
Feynman R. P., Leighton R. B., Sands M., The Feynman Lectures on Physics, Addison-Wesley Publishing Company, Reading, MA (1977).Search in Google Scholar
Feynman R. P., Space-Time Approach to Non-Relativistic Quantum Mechanics, Reviews of Modern Physics, Volume 20(2), pp. 367 – 387 (1948).Search in Google Scholar
Feynman R. P., The Theory of Positrons, Physical Review, Volume 76(6), pp. 749 – 759 (1949).Search in Google Scholar
Fresnel A., Considérations Mécaniques sur la Polarisation de la Lumière, Annales de Chimie et de Physique, Tome 17, pp. 179–196; reprinted in Oeuvres Complètes, Imprimerie Impériale, Paris 1866, Tome Premier, pp. 629 – 645 (can be found at Gallica.bnf.fr) (1821).Search in Google Scholar
Fresnel A., Mémoire sur la Diffraction de la Lumière, Mémoirs de l’Académie des Sciences de l’Institute de France, Tome 5, pp. 339–475; reprinted in Oeuvres Complètes, Imprimerie Impériale, Paris 1866, Tome Premier, pp. 247–382 (can be found at Gallica.bnf.fr) (1826).Search in Google Scholar
Fresnel A., Mémoire sur la Double Réfraction, Mémoirs de l’Académie des Sciences de l’Institute de France, Tome 7, pp. 45–176; reproduced in Oeuvres Complètes, Imprimerie Impériale, Paris 1866, (can be found at Gallica.bnf.fr) (1827).Search in Google Scholar
Hooke R., Micrographia, or Some Physiological Descriptions of Minute Bodies Made by Magnifying Glasses, Martyn & Allestry, London (1665).Search in Google Scholar
Hebb D. O., The Organization of Behavior: a Neuropsychological Theory, Lawrence Erlbaum Associates, Publishers, Mahwah, New Jersey (2002).Search in Google Scholar
Milner P. M., The Cell Assembly, Psychological Review, Volume 64(4), pp. 242 – 252 (1957).Search in Google Scholar
Löwel S., Singer W., Selection of Intrinsic Horizontal Connections in the Visual Cortex by Correlated Neuronal Activity, Science, Volume 255, pp. 209 – 212 (1992).Search in Google Scholar
Goshen (Goldstein) S., Lipkin H. J., (a) A Simple Independent-Particle System Having Collective Properties, Annals of Physics, Volume 6(4), pp. 301 – 309; (b) A Simple Model of a System Possessing Rotational States, Ibid., pp. 310 – 318 (1959).Search in Google Scholar
Schrödinger E., Collected Papers on Wave Mechanics, Blackie & Son Limited, London (1928).Search in Google Scholar
Hanbury Brown R., Twiss R. Q., A Test of a New Type of Stellar Interferometer on Sirius, Nature (London), Volume 178, pp. 1046 – 1048 (1956).Search in Google Scholar
Hanbury Brown R., Twiss R. Q., Interferometry of the Intensity Fluctuations in Light I. Basic Theory: the Correlation between Photons in Coherent Beams of Radiation, Proceedings of the Royal Society of London, Series A, Volume 242, pp. 300 – 324 (1957).Search in Google Scholar
Mazilu N., Agop M., Mercheș I., Scale Transitions as Foundations of Physics, World Scientific, Co. Pte. Ltd., Singapore (2021).Search in Google Scholar
Gabor D., A New Microscopic Principle, Nature, Volume 161, pp. 777 – 778 (1948).Search in Google Scholar
Gabor D., Microscopy by Reconstructed Wave-Fronts, Proceedings of the Royal Society of London, Series A, Volume 197, pp. 454 – 487 (1949).Search in Google Scholar
Longuet-Higgins H. C., (a) Holographic Model of Temporal Recall, Nature, Volume 217, p. 104; (b) The Non-Local Storage of Temporal Information, Proceedings of the Royal Society of London, Series B, Volume 171, pp. 327 – 334 (1968):Search in Google Scholar
Cariñena J. F., Marmo G., Nasarre J., The Nonlinear Superposition Principle and the Wei-Norman Method, International Journal of Modern Physics A, Volume 13(21), pp. 3601 – 3627 (1998).Search in Google Scholar
Darwin C. G., Free Motion in the Wave Mechanics, Proceedings of the Royal Society of London Series A, Volume 117, pp. 258 – 293 (1927):Search in Google Scholar
Schutz B. F., Geometrical Methods of Mathematical Physics, Cambridge University Press, Cambridge, UK (1982).Search in Google Scholar
Mazilu N., Agop M., Skyrmions – a Great Finishing Touch to Classical Newtonian Philosophy, Nova Publishers, New York (2012).Search in Google Scholar
Edelman G. M., Cell-Adhesion Molecules: a Molecular Basis for Animal Form, Scientific American, Volume 250(4), pp. 118 – 129 (1984).Search in Google Scholar
Edelman G. M., Topobiology. An Introduction to Molecular Embriology, Basic Books, A Division of HarperCollins Publishers, Inc. (1988).Search in Google Scholar
