Quantum Optical Analogies in Waveguide-based Optical Structures
| Author | : Marco Ornigotti |
| Publisher | : |
| Total Pages | : |
| Release | : 2009 |
| Genre | : |
| ISBN | : |
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Quantum Optical Analogies In Waveguide Based Optical Structures PDF Download
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Quantum Optical Analogies in Waveguide Based Optical Structures
| Author | : Marco Ornigotti |
| Publisher | : LAP Lambert Academic Publishing |
| Total Pages | : 108 |
| Release | : 2013 |
| Genre | : |
| ISBN | : 9783659377242 |
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Analogy is a basic concept for understanding nature, since it analyses and connects different phenomena linked by common properties or similar behavior. In particular, analogy can to some extent apply to specific quantum phenomena and their corresponding classical effects, although quantum physics differs from classical physics in both formalism and fundamental concepts. The main motivation on studying quantum optical analogies rely on the fact that analogies between different fields of physics have proven themselves extremely fruitful in understanding the basic physical concepts and the limits of applicability of different theories; in particular, the analogies between classical physical theories and quantum phenomena reveal the fact that similar mathematical formalisms apply to phenomena that cannot be related at first glance and are a priori conceptually different. The role of mathematics is crucial, because the essence of the analogy resides in the fact that completely different systems can be modeled by similar mathematical equations, unveiling a hidden unity in Nature, beyond its apparent diversity.
Quantum-Classical Analogies
| Author | : Daniela Dragoman |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 355 |
| Release | : 2013-04-09 |
| Genre | : Science |
| ISBN | : 3662096471 |
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It is unanimously accepted that the quantum and the classical descriptions of the physical reality are very different, although any quantum process is "mysteriously" transformed through measurement into an observable classical event. Beyond the conceptual differences, quantum and classical physics have a lot in common. And, more important, there are classical and quantum phenomena that are similar although they occur in completely different contexts. For example, the Schrödinger equation has the same mathematical form as the Helmholtz equation, there is an uncertainty relation in optics very similar to that in quantum mechanics, and so on; the list of examples is very long. Quantum-classical analogies have been used in recent years to study many quantum laws or phenomena at the macroscopic scale, to design and simulate mesoscopic devices at the macroscopic scale, to implement quantum computer algorithms with classical means, etc. On the other hand, the new forms of light – localized light, frozen light – seem to have more in common with solid state physics than with classical optics. So these analogies are a valuable tool in the quest to understand quantum phenomena and in the search for new (quantum or classical) applications, especially in the area of quantum devices and computing.
Quantum Optical Analogues
| Author | : Andon Rangelov |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2023-01-17 |
| Genre | : |
| ISBN | : |
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The analogy is a fundamental tool for understanding Mother Nature since it associates various phenomena related by common properties or comparable behavior. In particular, the analogies between classical physics and the quantum world show the fact that similar scientific formalisms apply to phenomena that are completely different. The role of mathematics is essential because the analogy principle exists in the fact that totally different systems can be modeled by similar mathematical equations. Specifically, analogies between quantum mechanics and wave optics have been emphasized since the beginning of quantum mechanics: wave effects like interference and diffraction were taken from optics and applied to exhibit the wavy idea of quantum particles, such as electrons, neutrons, and atoms. After the complete development of quantum theory, the exchange of ideas in the opposite way started to happen. In the recent decade quantum-classical analogies have seen a great revival thanks to quantum control schemes for the transfer of populations, such as excitation with the rapid adiabatic passage, stimulated Raman adiabatic passage, and composite pulses. Adiabatic processes in a dynamical system occur when an external perturbation of the system varies very slowly compared to its internal dynamics, allowing the system the time to adapt to the external changes. Mathematically, it means that for the entire dynamical evolution, the system remains at one of the eigenmodes of the system. Composite pulses are solutions to arbitrary optimization problems in a quantum system, driven by an external radiation field. The basic idea is to improve the performance of single-pulse excitation processes by applying multi-pulse (i.e. composite pulse) processes. The phases of the pulses in the composite sequence are appropriately chosen to yield a better performance of the composite excitation process compared to the single-pulse excitation. Now in this book, we will use the concepts of composite pulses and adiabatic evolution, from the realm of coherent quantum control, to demonstrate: (a) novel robust polarization manipulation devices; (b) efficient broadband and scalable frequency conversion schemes as well as optical parametric amplification schemes; (c) several new optical isolators; (d) several control schemes in waveguide arrays. All of this research is done by making the analogy between quantum mechanics and classical optics.
Top-Down Design of Disordered Photonic Structures
| Author | : Sunkyu Yu |
| Publisher | : Springer Nature |
| Total Pages | : 88 |
| Release | : 2019-09-03 |
| Genre | : Science |
| ISBN | : 9811375275 |
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This book introduces recent advances in the deterministic design of photonic structures, which overcome the current limitation in conventional disordered materials. It develops new concepts for disordered photonics inspired by notions in quantum mechanics, solid-state physics, mathematics and network theory, such as isospectrality, supersymmetry, graph network, small-world, de Broglie-Bohm theory, and parity-time symmetry. The multidisciplinary approach based on the core concepts of isospectrality (Chapter 2) and metadisorder (Chapter 3) offers a new perspective on the design methodology in photonics and in general disordered structures toward top-down designs of future photonic applications: perfect bandgap with strong modal localization, switching of random waves for binary and fuzzy logics, photonic analogy of graph networks, interdimensional signal transport, robust wave functions in disordered structures, and a novel method of energy storage and phase trapping based on Bohmian photonics. This book will provide new design criteria for physicists and engineers in photonics, and inspirations for researchers in other fields.
Optical Waveguide Theory by the Finite Element Method
| Author | : Masanori Koshiba |
| Publisher | : Advances in Opto-Electronics |
| Total Pages | : 0 |
| Release | : 1993 |
| Genre | : Mathematics |
| ISBN | : 9780792320807 |
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Recent advances in the field of guided-wave optics, such as fibre optics and integrated optics, have included the introduction of various optical waveguides. Computational tools for modelling and simulation are essential for a successful design, optimization, and realization of the optical waveguides. Despite its relatively brief existence, the finite element method has grown into a powerful and efficient tool for solving the most general optical waveguide problems. In this book, starting with a brief review of electromagnetic theory for optical waveguide analysis, the concepts of the finite element method and its fundamentals are discussed in detail. Current topics of the application of the finite element method to various optical waveguide problems, such as planar optical waveguides, optical channel waveguides, optical fibres, polarization-maintaining optical fibres, optical gratings, optical waveguide discontinuities, nonlinear optical waveguides, optical solitons and quantum well structures, are described, including many illustrations.
Progress in Optics
| Author | : Emil Wolf |
| Publisher | : Elsevier |
| Total Pages | : 653 |
| Release | : 2002-05-17 |
| Genre | : Science |
| ISBN | : 0444510222 |
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Progress in Optics Volume 43.
Modeling Optical Waveguide Dispersion
| Author | : William Charles Borland |
| Publisher | : |
| Total Pages | : 258 |
| Release | : 1989 |
| Genre | : |
| ISBN | : |
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Optical Waveguide Modes: Polarization, Coupling and Symmetry
| Author | : Richard J. Black |
| Publisher | : McGraw Hill Professional |
| Total Pages | : 206 |
| Release | : 2010-03-10 |
| Genre | : Technology & Engineering |
| ISBN | : 0071629149 |
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Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product. A complete guide to optical waveguide modes This in-depth work explains how transverse optical waveguide geometry influences field distribution and polarization properties. You will gain a thorough understanding of the fundamental physics of mode structure. Optical Waveguide Modes covers single- and few-mode optical waveguides with an emphasis on single-core and multicore optical fibers and couplers, including a large range of geometries and anisotropies. Analysis is performed using extensions of the weak-guidance perturbation formalism together with elementary group representation theory. This definitive volume offers a detailed introduction to and classification of diverse forms of fundamental and higher-order modes and various polarization manifestations. Coverage includes: Electromagnetic theory for anisotropic media Weak guidance for longitudinally invariant fibers Circular isotropic longitudinally invariant fibers Azimuthal symmetry breaking Birefringence: linear, radial, and circular Multicore and multifiber couplers
Optical Antennas
| Author | : Mario Agio |
| Publisher | : Cambridge University Press |
| Total Pages | : 481 |
| Release | : 2013-01-03 |
| Genre | : Science |
| ISBN | : 110701414X |
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This consistent and systematic review of recent advances in optical antenna theory and practice brings together leading experts in the fields of electrical engineering, nano-optics and nano-photonics, physical chemistry and nanofabrication. Fundamental concepts and functionalities relevant to optical antennas are explained, together with key principles for optical antenna modelling, design and characterisation. Recognising the tremendous potential of this technology, practical applications are also outlined. Presenting a clear translation of the concepts of radio antenna design, near-field optics and field-enhanced spectroscopy into optical antennas, this interdisciplinary book is an indispensable resource for researchers and graduate students in engineering, optics and photonics, physics and chemistry.
