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157 results on '"Naidoo, Darryl"'

1. High-dimensional classically entangled light from a laser

Author

Shen, Yijie, Nape, Isaac, Yang, Xilin, Fu, Xing, Gong, Mali, Naidoo, Darryl, and Forbes, Andrew

Subjects
Physics - Optics, Quantum Physics
Abstract

Vectorially structured light has emerged as an enabling tool in many diverse applications, from communication to imaging, exploiting quantum-like correlations courtesy of a non-separable spatially varying polarization structure. Creating these states at the source remains challenging and is presently limited to two-dimensional vectorial states by customized lasers. Here we invoke ray-wave duality in a simple laser cavity to produce polarization marked multi-path modes that are non-separable in three degrees of freedom and in eight dimensions. As a topical example, we use our laser to produce the complete set of Greenberger-Horne-Zeilinger (GHZ) basis states, mimicking high-dimensional multi-partite entanglement with classical light, which we confirm by a new projection approach. We offer a complete theoretical framework for our laser based on SU(2) symmetry groups, revealing a rich parameter space for further exploitation. Our approach requires only a conventional laser with no special optical elements, is easily scaleable to higher dimensions, and offers a simple but elegant solution for at-the-source creation of classically entangled states of structured light, opening new applications in simulating and enhancing high-dimensional quantum systems.

Published
2020

2. Fractal light from lasers

Author

Sroor, Hend, Naidoo, Darryl, Miller, Steven W., Nelson, John, Courtial, Johannes, and Forbes, Andrew

Subjects
Physics - Optics, Nonlinear Sciences - Pattern Formation and Solitons
Abstract

Fractals, complex shapes with structure at multiple scales, have long been observed in Nature: as symmetric fractals in plants and sea shells, and as statistical fractals in clouds, mountains and coastlines. With their highly polished spherical mirrors, laser resonators are almost the precise opposite of Nature, and so it came as a surprise when, in 1998, transverse intensity cross-sections of the eigenmodes of unstable canonical resonators were predicted to be fractals [Karman et al., Nature 402, 138 (1999)]. Experimental verification has so far remained elusive. Here we observe a variety of fractal shapes in transverse intensity cross-sections through the lowest-loss eigenmodes of unstable canonical laser resonators, thereby demonstrating the controlled generation of fractal light inside a laser cavity. We also advance the existing theory of fractal laser modes, first by predicting 3D self-similar fractal structure around the centre of the magnified self-conjugate plane, second by showing, quantitatively, that intensity cross-sections are most self-similar in the magnified self-conjugate plane. Our work offers a significant advance in the understanding of a fundamental symmetry of Nature as found in lasers., Comment: 11 pages, 12 figures. arXiv admin note: text overlap with arXiv:1308.4898

Published
2018
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3. Purity of vector vortex beams through a birefringent amplifier

Author

Sroor, Hend, Lisa, Nyameko, Naidoo, Darryl, Litvin, Igor, and Forbes, Andrew

Subjects
Physics - Optics
Abstract

Creating high-quality vector vortex (VV) beams is possible with a myriad of techniques at low power, and while a few studies have produced such beams at high-power, none have considered the impact of amplification on the vector purity. Here we employ novel tools to study the amplification of VV beams, and in particular the purity of such modes. We outline a general toolbox for such investigations and demonstrate its use in the general case of VV beams through a birefringent gain medium. Intriguingly, we show that it is possible to enhance the purity of such beams during amplification, paving the way for high-brightness VV beams, a requirement for their use in high-power applications such as laser materials processing.

Published
2017
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4. Optimised brightness from solid-state lasers

Author

Naidoo, Darryl, Litvin, Igor A., and Forbes, Andrew

Subjects
Physics - Optics
Abstract

Laser brightness is a measure of the ability to de- liver intense light to a target, and encapsulates both the energy content and the beam quality. High brightness lasers requires that both parameters be maximised, yet standard laser cavities do not allow this. For example, in solid-state lasers multimode beams have a high energy content but low beam quality, while Gaussian modes have a small mode volume and hence low energy extraction, but in a good quality mode. Here we over- come this fundamental limitation and demonstrate an optimal approach to realising high brightness lasers. We employ intra- cavity beam shaping to produce a Gaussian mode that carries all the energy of the multimode beam, thus energy extraction and beam quality are simultaneously maximised. This work will have a significant influence on the design of future high brightness laser cavities.

Published
2017

6. Controlled generation of higher-order Poincare sphere beams from a laser

Author

Naidoo, Darryl, Roux, Filippus, Dudley, Angela, Litvin, Igor, Piccirillo, Bruno, Marucci, Lorenzo, and Forbes, Andrew

Subjects
Physics - Optics
Abstract

The angular momentum state of light can be described by positions on a higher-order Poincar\'e (HOP) sphere, where superpositions of spin and orbital angular momentum states give rise to laser beams that have found many applications, including optical communication, quantum information processing, microscopy, optical trapping and tweezing and materials processing. Many techniques exist to create such beams but none to date allow their creation at the source. Here we report on a new class of laser that is able to generate all states on the HOP sphere. We exploit geometric phase control with a non-homogenous polarization optic and a wave-plate inside a laser cavity to map spin angular momentum (SAM) to orbital angular momentum (OAM). Rotation of these two elements provides the necessary degrees of freedom to traverse the entire HOP sphere. As a result, we are able to demonstrate that the OAM degeneracy of a standard laser cavity may be broken, producing pure OAM modes as the output, and that generalized vector vortex beams may be created from the same laser, for example, radially and azimuthally polarized laser beams. It is noteworthy that all other aspects of the laser cavity follow a standard design, facilitating easy implementation.

Published
2015

31. SU(2) Poincaré Sphere: A generalized representation for multi-dimensional structured light

Author

Shen, Yijie, Wang, Zhaoyang, Fu, Xing, Naidoo, Darryl, and Forbes, Andrew

Abstract

Structured light, as a general term for arbitrary states of amplitude, phase, and polarization in optical fields, is highly topical because of a myriad of applications it has fostered. A geometric description to graphically group classes of structured light has obvious benefits, with some notable advances in analogous Poincaré sphere (PS) mapping for both spin and orbital angular momentum (OAM), as well as ray-optical PS approaches for propagation-invariant fields, but all limited in dimensionality they can describe. Here we propose a generalizedSU(2) PS for arbitrary dimensional structured light. The states on it represent extended families of beams with multidimensional ray-wave structures, accurately described by SU(2) symmetry groups. We outline how to construct this mapping theoretically, revealing insights into mode transformations involving OAM and geometric phase, and fully verify its efficacy experimentally. The generality of our approach is evident by the reduction to prior PS representations as special cases. We also demonstrate an extension of our approach to explain amore general high-dimensional vector beam. This construction naturally accounts for the salient topology of the classical PSs while bringing to more new degrees of freedom and dimensions for tailoring a larger variety of quantum-to-classical structured beams for a variety of applications.

Published
2020

38. High purity twisted light from a metasurface solid state resonator

Author

Sroor, Hend, primary, Huang, Yao-Wei, additional, Sephton, Bereneice, additional, Naidoo, Darryl, additional, Valles, Adam, additional, Ginis, Vincent, additional, Zhan, Qiwen, additional, Qiu, Cheng-Wei, additional, Ambrosio, Antonio, additional, Capasso, Federico, additional, and Forbes, Andrew, additional

Published
2020
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40. A Novel Laser Resonator for Fractal Modes

Author

Sroor, Hend, Naidoo, Darryl, Courtial, Johannes, and Forbes, Andrew

Abstract

Mathematical self-similar fractals manifest identical replicated patterns at every scale. Recently, fractals have found their way into a myriad of applications. In optics, it has been shown that manipulation of unstable resonator parameters such as cavity length, curvatures of mirrors, the design of aperture and its transverse position can reveal self-similar fractal patterns in the resonators eigenmodes. Here, we present a novel laser resonator that can generate self-similar fractal output modes. This resonator has a special plane termed self-conjugate, during each round trip inside the cavity, is imaged upon itself with either a magnification or demagnification depending on the direction of beam propagation inside the cavity. By imaging an aperture placed in the self-conjugate plane inside the cavity, we qualitatively show the fractal behaviour occurring at various scales which, are given by powers of the magnification at the self-conjugate plane. We computed the fractal dimension of the patterns we generated and obtained non-integer values, as is expected for fractals.

Published
2018

43. Fractal light from lasers

Author

Sroor, Hend, primary, Naidoo, Darryl, additional, Miller, Steven W., additional, Nelson, John, additional, Courtial, Johannes, additional, and Forbes, Andrew, additional

Published
2019
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