Truong X. Tran scite author profile

Motivated by recent experimental results, we demonstrate that the ubiquitous pulse propagation equation based on a single generalized nonlinear Schrödinger equation is incomplete and inadequate to explain the formation of the so called negative-frequency resonant radiation emitted by optical solitons. The origin of this deficiency is due to the absence of a peculiar nonlinear coupling between the positive and negative frequency components of the pulse spectrum during propagation, a feature that the slowly-varying envelope approximation is unable to capture. We therefore introduce a conceptually new model, based on the envelope of the analytic signal, that takes into account the full spectral dynamics of all frequency components, is prone to analytical treatment and retains the simulation efficiency of the nonlinear Schrödinger equation. We use our new equation to derive from first principles the phase-matching condition of the negative-frequency resonant radiation observed in previously reported experiments.

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Optical analogue of relativistic Dirac solitons in binary waveguide arrays

Tran

Longhi

Biancalana

2014

Annals of Physics

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We study analytically and numerically an optical analogue of Dirac solitons in binary waveguide arrays in the presence of Kerr non-linearity. Pseudo-relativistic soliton solutions of the coupled-mode equations describing dynamics in the array are analytically derived. We demonstrate that with the found soliton solutions, the coupled mode equations can be converted into the nonlinear relativistic 1D Dirac equation. This paves the way for using binary waveguide arrays as a classical simulator of quantum nonlinear effects arising from the Dirac equation, something that is thought to be impossible to achieve in conventional (i.e. linear) quantum field theory. (C) 2013 Elsevier Inc. All rights reserved

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Raman-induced temporal condensed matter physics in gas-filled photonic crystal fibers

Saleh¹,

Armaroli²,

Tran³

et al. 2015

Opt. Express

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Raman effect in gases can generate an extremely long-living wave of coherence that can lead to the establishment of an almost perfect temporal periodic variation of the medium refractive index. We show theoretically and numerically that the equations, regulate the pulse propagation in hollow-core photonic crystal fibers filled by Raman-active gas, are exactly identical to a classical problem in quantum condensed matter physics - but with the role of space and time reversed - namely an electron in a periodic potential subject to a constant electric field. We are therefore able to infer the existence of Wannier-Stark ladders, Bloch oscillations, and Zener tunneling, phenomena that are normally associated with condensed matter physics, using purely optical means.

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Emergence of Geometrical Optical Nonlinearities in Photonic Crystal Fiber Nanowires

et al. 2010

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We demonstrate analytically and numerically that a subwavelength-core dielectric photonic nanowire embedded in a properly designed photonic crystal fiber cladding shows evidence of a previously unknown kind of nonlinearity (the magnitude of which is strongly dependent on the waveguide parameters) which acts on solitons so as to considerably reduce their Raman self-frequency shift. An explanation of the phenomenon in terms of indirect pulse negative chirping and broadening is given by using the moment method. Our conclusions are supported by detailed numerical simulations

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Truong X. Tran

Interaction between optical fields and their conjugates in nonlinear media

Optical analogue of relativistic Dirac solitons in binary waveguide arrays

Raman-induced temporal condensed matter physics in gas-filled photonic crystal fibers

Emergence of Geometrical Optical Nonlinearities in Photonic Crystal Fiber Nanowires

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