Prof. Orfeu Bertolami Profile

Prof. Orfeu Bertolami

at Univ of Porto

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Publications (2)

Proceedings Article | 18 April 2021 Presentation + Paper

Analogue cosmology: using techniques from nonlinear optics to study modified theories of gravity with non-minimal coupling between curvature and matter

Tiago Ferreira, João Novo, O. Bertolami, Nuno Silva, Ariel Guerreiro

Proceedings Volume 11770, 1177018 (2021) https://doi.org/10.1117/12.2592316

KEYWORDS: Systems modeling, Mathematical modeling, Nonlinear optics, Complex systems, Numerical analysis, Geometrical optics, General relativity, Nonlinear optical materials, Fluid dynamics

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The Theory of General Relativity is currently the most accepted model to describe gravity, and although many experiments and observations continue to validate it, recent astrophysical and cosmological observations require to include new forms of matter and energy (dark matter and dark energy), to be consistent. Modified theories of gravity with non-minimal coupling between curvature and matter are extensions of the Theory of General Relativity and have been proposed to address these shortcomings. Interestingly, matter at large scales behaves as a fluid and under certain approximations, the field equations can be approximated to a generalized Schr¨odingerNewton system of equations. This model is largely found in the nonlinear optical systems, in particular to describe light propagating in nonlinear and nonlocal optical materials and also as a base model for the development of many optical analogues. Due to this, there are a wide variety of numerical methods developed to tackle this type of mathematical models, and that can be used to study these alternative gravity models. In this work, we explore the application of these numerical techniques based on GPGPU supercomputing, initially developed to study light propagating in nonlinear optical systems, to explore a particular non-minimal coupled gravity model. This model, in the nonrelativistic limit, modifies the hydrodynamic equations with the introduction of an attractive Yukawa potential and a repulsive one proportional to the matter density. We used the Schr¨odinger-Newton formalism to numerically study this model and, through the imaginary-time propagation method, we found stationary solutions that were sustained by the repulsive potential introduced by the non-minimal coupled model, even in the absence of a pressure term. We developed an analytical study in the Thomas-Fermi approximation and compared the predictions with numerical solutions. Finally, we explored how this gravity model may be emulated in the laboratory as an optical analogue.

Proceedings Article | 3 October 2019 Paper

Simulating N-body systems for alternative theories of gravity using solvers from nonlocal optics

Tiago Ferreira, Nuno Silva, O. Bertolami, C. Gomes, Ariel Guerreiro

Proceedings Volume 11207, 1120710 (2019) https://doi.org/10.1117/12.2527295

KEYWORDS: Systems modeling, General relativity, Geometrical optics, Computer simulations, Optical simulations, Complex systems, Beam propagation method, Liquid crystals, Paraxial approximations, Physics

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