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Master of Modern Physics, 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.
semanticscholar +3 more sources
Chiral cavity quantum electrodynamics
Nature Physics, 2021Cavity quantum electrodynamics, which explores the granularity of light by coupling a resonator to a nonlinear emitter1, has played a foundational role in the development of modern quantum information science and technology.
J. Owens +8 more
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Bolometer operating at the threshold for circuit quantum electrodynamics
Nature, 2020Radiation sensors based on the heating effect of absorbed radiation are typically simple to operate and flexible in terms of input frequency, so they are widely used in gas detection1, security2, terahertz imaging3, astrophysical observations4 and ...
R. Kokkoniemi +18 more
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Polarized Fock States and the Dynamical Casimir Effect in Molecular Cavity Quantum Electrodynamics.
Journal of Physical Chemistry Letters, 2020We present a new theoretical framework, polarized Fock states (PFS), to describe the coupled molecule-cavity hybrid system in quantum electrodynamics. Through the quantum light-matter interactions under the dipole Gauge, the molecular permanent dipoles ...
Arkajit Mandal +2 more
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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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Gauge non-invariance due to material truncation in ultrastrong-coupling quantum electrodynamics
Nature Physics, 2020Gauge non-invariance due to material truncation has recently been explored in a number of contexts in strong-coupling QED. We show that the approach proposed recently in Nature Physics 15, 803 (2019) rests on an incorrect mathematical assertion and so ...
Adam Stokes, A. Nazir
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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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Hyperbolic lattices in circuit quantum electrodynamics
Nature, 2018After two decades of development, cavity quantum electrodynamics with superconducting circuits has emerged as a rich platform for quantum computation and simulation.
Alicia J. Kollár +2 more
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Superconductor–semiconductor hybrid-circuit quantum electrodynamics
Nature Reviews Physics, 2019Light–matter interactions at the single-particle level have generally been explored in the context of atomic, molecular and optical physics. Recent advances motivated by quantum information science have made it possible to explore coherent interactions ...
G. Burkard, M. Gullans, X. Mi, J. Petta
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