R. Jáuregui scite author profile

Bessel beams are studied within the general framework of quantum optics. The two modes of the electromagnetic field are quantized and the basic dynamical operators are identified. The algebra of these operators is analyzed in detail; it is shown that the operators that are usually associated to linear momentum, orbital angular momentum and spin do not satisfy the algebra of the translation and rotation group, and that this algebra is not closed. Some physical consequences of these results are examined.

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Rotational effects of twisted light on atoms beyond the paraxial approximation

Jáuregui¹

2004

Phys. Rev. A

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The transition probability for the emission of a Bessel photon by an atomic system is calculated within first order perturbation theory. We derive a closed expression for the electromagnetic potentials beyond the paraxial approximation that permits a systematic multipole approximation . The matrix elements between center of mass and internal states are evaluated for some specially relevant cases. This permits to clarify the feasibility of observing the rotational effects of twisted light on atoms predicted by the calculations. It is shown that the probability that the internal state of an atom acquires orbital angular momentum from light is, in general, maximum for an atom located at the axis of a Bessel mode. For a Gaussian packet, the relevant parameter is the ratio of the spread of the atomic center of mass wave packet to the transversal wavelength of the photon.

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Dirac vacuum: Acceleration and external-field effects

1991

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Comment on “Fermionic entanglement ambiguity in noninertial frames”

Brádler

Jáuregui

2012

Phys. Rev. A

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In this comment we show that the ambiguity of entropic quantities calculated in [1] for fermionic fields in the context of Unruh effect is not related to the properties of anticommuting fields, as claimed in [1], but rather to wrong mathematical manipulations with them and not taking into account a fundamental superselection rule of quantum field theory. * Electronic address: kbradler@cs.mcgill.ca

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Control of electronic magnetic state population via light polarization in the 5p_3/2$ \rightarrow $ 6p_3/2electric quadrupole transition in atomic rubidium

Mojica-Casique

Ponciano-Ojeda

Hernández-Gómez

et al. 2016

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

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R. Jáuregui

Quantum-mechanical properties of Bessel beams

Rotational effects of twisted light on atoms beyond the paraxial approximation

Dirac vacuum: Acceleration and external-field effects

Comment on “Fermionic entanglement ambiguity in noninertial frames”

Control of electronic magnetic state population via light polarization in the 5p_3/2$ \rightarrow $ 6p_3/2electric quadrupole transition in atomic rubidium

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About

R. Jáuregui

Quantum-mechanical properties of Bessel beams

Rotational effects of twisted light on atoms beyond the paraxial approximation

Dirac vacuum: Acceleration and external-field effects

Comment on “Fermionic entanglement ambiguity in noninertial frames”

Control of electronic magnetic state population via light polarization in the 5p3/2$ \rightarrow $ 6p3/2electric quadrupole transition in atomic rubidium

Contact Info

Product

Resources

About

Control of electronic magnetic state population via light polarization in the 5p_3/2$ \rightarrow $ 6p_3/2electric quadrupole transition in atomic rubidium