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Mathematical Proceedings of the Cambridge Philosophical Society, 1939
It is shown in this paper and the preceding one that two separate forms of theory can be developed in which a “finite size” is attributed to a charged particle by means of its interaction with the radiation field. The region attributed in this way to the particle is four dimensional and is determined in such a manner that the usual difficulties with ...
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It is shown in this paper and the preceding one that two separate forms of theory can be developed in which a “finite size” is attributed to a charged particle by means of its interaction with the radiation field. The region attributed in this way to the particle is four dimensional and is determined in such a manner that the usual difficulties with ...
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Development of quantum electrodynamics
Physics Today, 1966IN 1932, when I started my research career as an assistant to Nishina, Dirac published a paper in the Proceedings of the Royal Society, London. In this paper, he discussed the formulation of relativistic quantum mechanics, especially that of electrons interacting with the electromagnetic field.
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2020
AbstractFree states for electrons, positron and photons are studied. The notions developed in the previous chapter are then applied to this more intricate situation. The ensuing computations yield propagators for the involved particles.
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AbstractFree states for electrons, positron and photons are studied. The notions developed in the previous chapter are then applied to this more intricate situation. The ensuing computations yield propagators for the involved particles.
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1992
Abstract Quantum electrodynamics, i.e. the relativistic quantum theory of the interactions between electrons and photons, is the physical theory with incomparably the most precise confirmation from experiment. We quote just one example, the anomalous magnetic moment of the electron.
Michel Le Bellac, G Barton
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Abstract Quantum electrodynamics, i.e. the relativistic quantum theory of the interactions between electrons and photons, is the physical theory with incomparably the most precise confirmation from experiment. We quote just one example, the anomalous magnetic moment of the electron.
Michel Le Bellac, G Barton
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Mesoscopic quantum electrodynamics
2015A new type of experiments combining microwave cavities and mesoscopic circuits gathering nanoconductors and fermionic reservoirs has recently appeared [1,2,3]. This mesoscopic Quantum Electrodynamics (QED) offers many new possibilities like for instance quantum computing schemes based on localized electronic spins, or a powerful photonic study of ...
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Materials challenges for trapped-ion quantum computers
Nature Reviews Materials, 2021Kenneth R Brown +2 more
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Quantum guidelines for solid-state spin defects
Nature Reviews Materials, 2021Gary Wolfowicz +2 more
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Journal of Physics B: Atomic, Molecular and Optical Physics, 2006
David L Andrews +2 more
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David L Andrews +2 more
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InP colloidal quantum dots for visible and near-infrared photonics
Nature Reviews Materials, 2023Guilherme Almeida +2 more
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