Adina Crișan scite author profile

Adina Crișan

5Publications

10Citation Statements Received

228Citation Statements Given

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225

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Technical University of Cluj-Napoca

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Finsler geometries from topological electromagnetism

Crișan

Vancea

2020

Eur. Phys. J. C

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We analyse the Finsler geometries of the kinematic space of spinless and spinning electrically charged particles in an external Rañada field. We consider the most general actions that are invariant under the Lorentz, electromagnetic gauge and reparametrization transformations. The Finsler geometries form a set parametrized by the gauge fields in each case. We give a simple method to calculate the fundamental objects of the Finsler geometry of the kinematic space of a particle in a generic electromagnetic field. Then we apply this method to calculate the geodesic equations of the spinless and spinning particles. Also, we show that the electromagnetic duality in the Rañada background induces a simple dual map in the set of Finsler geometries. The duality map has a simple interpretation in terms of an electrically charged particle that interacts with the electromagnetic potential and a magnetically charged particle that interacts with the dual magnetoelectric potential. We exemplify the action of the duality map by calculating the dual geodesic equation.

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Nonlinear dynamics of a charged particle in a strong non-null knot wave background

Crișan

Vancea

2020

Int. J. Mod. Phys. A

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In this paper, we study the dynamics of a charged particle interacting with the non-null electromagnetic knot wave background. We analyze the classical system in the Hamilton–Jacobi formalism and find the action, the linear momentum and the trajectory of the particle. Also, we calculate the effective mass and the emitted radiation along the knot wave. Next, we quantize the system in the classical strong knot wave background by using the strong-field QED canonical formalism. We explicitly construct the Furry picture and calculate the Volkov solutions of the Dirac equation. As an application, we discuss the one-photon Compton effect where we determine the general form of the S-matrix. Also, we discuss in detail the first partial amplitudes in the transition matrix in two simple backgrounds and show that there is a pair of states for which these amplitudes are identical.

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Gravitoelectromagnetic Knot Fields

2021

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We construct a class of knot solutions of the gravitoelectromagnetic (GEM) equations in vacuum in the linearized gravity approximation by analogy with the Rañada–Hopf fields. For these solutions, the dual metric tensors of the bi-metric geometry of the gravitational vacuum with knot perturbations are given and the geodesic equation as a function of two complex parameters of the GEM knots are calculated. Finally, the Landau–Lifshitz pseudo-tensor and a scalar invariant of the GEM knots are computed.

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Geometric and Quantum Properties of Charged Particles in Monochromatic Electromagnetic Knot Background

Crișan¹,

Vancea²

2021

Geom. Integrability & Quantization

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In this paper, we review recent results on the interaction of the topological electromagnetic fields with matter, in particular with spinless and spin half charged particles obtained earlier. The problems discussed here are the generalized Finsler geometries and their dualities in the Trautman-Ra\~{n}ada backgrounds, the classical dynamics of the charged particles in the single non-null knot mode background and the quantization in the same background in the strong field approximation.

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The influence of deposition time and testing temperature on mechanical proprieties of niobium nitride thin films

Șerdean

Merie

Crișan

et al. 2018

IOP Conf. Ser.: Mater. Sci. Eng.

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Adina Crișan

Finsler geometries from topological electromagnetism

Nonlinear dynamics of a charged particle in a strong non-null knot wave background

Gravitoelectromagnetic Knot Fields

Geometric and Quantum Properties of Charged Particles in Monochromatic Electromagnetic Knot Background

The influence of deposition time and testing temperature on mechanical proprieties of niobium nitride thin films

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