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  1. The principles of quantum mechanics.Paul Dirac - 1930 - Oxford,: Clarendon Press.
    THE PRINCIPLE OF SUPERPOSITION. The need for a quantum theory Classical mechanics has been developed continuously from the time of Newton and applied to an ...
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  • QED and the Men Who Made It: Dyson, Feynman, Schwinger, and Tomonaga.Silvan S. Schweber - 1995 - British Journal for the Philosophy of Science 46 (4):624-627.
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  • Yukawa's Prediction of the Meson.Laurie M. Brown - 1981 - Centaurus 25 (1):71-132.
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  • Yukawa's Heavy Quantum and the Mesotron.Helmut Rechenberg & Laurie M. Brown - 1990 - Centaurus 33 (2):214-252.
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  • Niels Bohr's Conceptual Legacy in Contemporary Particle Physics.David Kaiser - 1993 - In Jan Faye & Henry J. Folse (eds.), Niels Bohr and Contemporary Philosophy. Kluwer Academic Publishers. pp. 257--268.
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  • Die gegenwärtigen Aufgaben der theoretischen Physik.W. Heisenberg - 1938 - Scientia 32 (63):61.
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  • The Quantum Electrodynamical Analogy in Early Nuclear Theory or The Roots of Yukawa's Theory.Olivier Darrigol - 1988 - Revue d'Histoire des Sciences 41 (3):225-297.
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  • (1 other version)The Discovery of the Muon and the Failed Revolution against Quantum Electrodynamics.Peter Galison - 1982 - Centaurus 26 (3):262-316.
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  • The development of the vector meson theory in Britain and Japan.Laurie M. Brown & Helmut Rechenberg - 1991 - British Journal for the History of Science 24 (4):405-433.
    In order to formulate a fundamental quantum field theory of nuclear forces that explains their strength, range, and exchange character, while at the same time accounting for the weak β-decay interaction, Hideki Yukawa introduced a new kind of quantum field. In contrast to the real field of quantum electrodynamics , which he took as his model, Yukawa's U-field was complex, and in contrast to the neutral massless photon of QED, the U-field's ‘heavy’ quanta were charged, carrying the electronic charge . (...)
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