Maxime Federico scite author profile

Maxime Federico

4Publications

4Citation Statements Received

112Citation Statements Given

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Laboratoire Interdisciplinaire Carnot de Bourgogne, University of Burgundy, Université Bourgogne Franche-Comté

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Space-time propagation of photon pulses in dielectric media, illustrations with beam splitters

Federico

Dorier

Guérin

et al. 2022

J. Phys. B: At. Mol. Opt. Phys.

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Photons are the elementary quantum excitations of the electromagnetic ﬁeld. Quantization is usually constructed on the basis of an expansion in eigenmodes, in the form of plane waves. Since they form a basis, other electromagnetic conﬁgurations can be constructed by linear combinations. In this presentation we discuss a formulation constructed in the general formalism of bosonic Fock space, in which the quantum excitation can be constructed directly on localized pulses of arbitrary shape. Although the two formulations are essentially equivalent, the direct formulation in terms of pulses has some conceptual and practical advantages, which we illustrate with some examples. The ﬁrst one is the passage of a single photon pulse through a beam splitter. The analysis of this formulation in terms of pulses in Fock space shows that there is no need to introduce “vacuum ﬂuctuations entering through the unused port”, as is often done in the literature. Another example is the Hong-Ou-Mandel eﬀect. It is described as a time dependent process in the Schrödinger representation in Fock space. The analysis shows explicitly how the two essential ingredients of the Hong-Ou-Mandel eﬀect are the same shape of the pulses and the bosonic nature of photons. This formulation shows that all the phenomena involving linear quantum optical devices can be described and calculated on the basis of the time dependent solution of the corresponding classical Maxwell’s equations for pulses, from which the quantum dynamics in Fock space can be immediately constructed.

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Isomorphism between the Białynicki-Birula and the Landau-Peierls Fock space quantization of the electromagnetic field in position representation

Federico

Jauslin

2023

J. Phys. A: Math. Theor.

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We first present a summary of the quantization of the electromagnetic field in position space representation, using two main approaches: the Landau-Peierls approach in the Coulomb gauge and the Bialynicki-Birula approach, based on the Riemann-Silberstein vector. We describe both in a framework that starts with a classical Hamiltonian structure and builds the quantum model in a bosonic Fock space by a precisely defined principle of correspondence. We show that the two approches are completly equivalent. This is formulated by showing that there is a unitary map between the Fock spaces that makes them isomorphic. Since all the physically measurable quantities can be expressed in terms of scalar products, this implies that the two quantizations lead to exactly the same physical properties. We show furthemore that the isomorphism is preserved in the time evolutions. To show the equivalence, we use the concepts of helicity and frequency operators. The combination of these two operators provides a formulation that allows one to make the link between these two methods of quantization in a precise way. We also show that the construction in the Bialynicki-Birula quantization that avoids the presence of negative eigenvalues in the Hamiltonian, in analogy with the one for the Dirac equation for electrons and positrons, can be performed through an alternative choice of the canonical variables for Maxwell's equations.

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A contextually objective approach to the extended Wigner's friend thought experiment

Federico¹,

Grangier²

2023

Preprint

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Isomorphism between the Bialynicki-Birula and the Landau-Peierls Fock space quantization of the electromagnetic field in position representation

Federico¹,

Jauslin²

2022

Preprint

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Maxime Federico

Space-time propagation of photon pulses in dielectric media, illustrations with beam splitters

Isomorphism between the Białynicki-Birula and the Landau-Peierls Fock space quantization of the electromagnetic field in position representation

A contextually objective approach to the extended Wigner's friend thought experiment

Isomorphism between the Bialynicki-Birula and the Landau-Peierls Fock space quantization of the electromagnetic field in position representation

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