Relevant bibliographies by topics / Complex photonics

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Complex photonics'

Author: Grafiati
Published: 4 June 2021
Last updated: 16 February 2022

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Journal articles on the topic "Complex photonics"

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Zhang, Chuang, Chang-Ling Zou, Yan Zhao, Chun-Hua Dong, Cong Wei, Hanlin Wang, Yunqi Liu, Guang-Can Guo, Jiannian Yao, and Yong Sheng Zhao. "Organic printed photonics: From microring lasers to integrated circuits." Science Advances 1, no. 8 (September 2015): e1500257. http://dx.doi.org/10.1126/sciadv.1500257.

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A photonic integrated circuit (PIC) is the optical analogy of an electronic loop in which photons are signal carriers with high transport speed and parallel processing capability. Besides the most frequently demonstrated silicon-based circuits, PICs require a variety of materials for light generation, processing, modulation, and detection. With their diversity and flexibility, organic molecular materials provide an alternative platform for photonics; however, the versatile fabrication of organic integrated circuits with the desired photonic performance remains a big challenge. The rapid development of flexible electronics has shown that a solution printing technique has considerable potential for the large-scale fabrication and integration of microsized/nanosized devices. We propose the idea of soft photonics and demonstrate the function-directed fabrication of high-quality organic photonic devices and circuits. We prepared size-tunable and reproducible polymer microring resonators on a wafer-scale transparent and flexible chip using a solution printing technique. The printed optical resonator showed a quality (Q) factor higher than 4 × 105, which is comparable to that of silicon-based resonators. The high material compatibility of this printed photonic chip enabled us to realize low-threshold microlasers by doping organic functional molecules into a typical photonic device. On an identical chip, this construction strategy allowed us to design a complex assembly of one-dimensional waveguide and resonator components for light signal filtering and optical storage toward the large-scale on-chip integration of microscopic photonic units. Thus, we have developed a scheme for soft photonic integration that may motivate further studies on organic photonic materials and devices.
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Maram, Reza, Saket Kaushal, José Azaña, and Lawrence Chen. "Recent Trends and Advances of Silicon-Based Integrated Microwave Photonics." Photonics 6, no. 1 (January 30, 2019): 13. http://dx.doi.org/10.3390/photonics6010013.

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Multitude applications of photonic devices and technologies for the generation and manipulation of arbitrary and random microwave waveforms, at unprecedented processing speeds, have been proposed in the literature over the past three decades. This class of photonic applications for microwave engineering is known as microwave photonics (MWP). The vast capabilities of MWP have allowed the realization of key functionalities which are either highly complex or simply not possible in the microwave domain alone. Recently, this growing field has adopted the integrated photonics technologies to develop microwave photonic systems with enhanced robustness as well as with a significant reduction of size, cost, weight, and power consumption. In particular, silicon photonics technology is of great interest for this aim as it offers outstanding possibilities for integration of highly-complex active and passive photonic devices, permitting monolithic integration of MWP with high-speed silicon electronics. In this article, we present a review of recent work on MWP functions developed on the silicon platform. We particularly focus on newly reported designs for signal modulation, arbitrary waveform generation, filtering, true-time delay, phase shifting, beam steering, and frequency measurement.
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Sun, Shuai, Mario Miscuglio, Xiaoxuan Ma, Zhizhen Ma, Chen Shen, Engin Kayraklioglu, Jeffery Anderson, Tarek El Ghazawi, and Volker J. Sorger. "Induced homomorphism: Kirchhoff’s law in photonics." Nanophotonics 10, no. 6 (March 22, 2021): 1711–21. http://dx.doi.org/10.1515/nanoph-2020-0655.

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Abstract When solving, modeling or reasoning about complex problems, it is usually convenient to use the knowledge of a parallel physical system for representing it. This is the case of lumped-circuit abstraction, which can be used for representing mechanical and acoustic systems, thermal and heat-diffusion problems and in general partial differential equations. Integrated photonic platforms hold the prospective to perform signal processing and analog computing inherently, by mapping into hardware specific operations which relies on the wave-nature of their signals, without trusting on logic gates and digital states like electronics. Here, we argue that in absence of a straightforward parallelism a homomorphism can be induced. We introduce a photonic platform capable of mimicking Kirchhoff’s law in photonics and used as node of a finite difference mesh for solving partial differential equation using monochromatic light in the telecommunication wavelength. Our approach experimentally demonstrates an arbitrary set of boundary conditions, generating a one-shot discrete solution of a Laplace partial differential equation, with an accuracy above 95% with respect to commercial solvers. Our photonic engine can provide a route to achieve chip-scale, fast (10 s of ps), and integrable reprogrammable accelerators for the next generation hybrid high-performance computing. Summary A photonic integrated platform which can mimic Kirchhoff’s law in photonics is used for approximately solve partial differential equations noniteratively using light, with high throughput and low-energy levels.
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Ferreira de Lima, Thomas, Alexander N. Tait, Armin Mehrabian, Mitchell A. Nahmias, Chaoran Huang, Hsuan-Tung Peng, Bicky A. Marquez, et al. "Primer on silicon neuromorphic photonic processors: architecture and compiler." Nanophotonics 9, no. 13 (August 10, 2020): 4055–73. http://dx.doi.org/10.1515/nanoph-2020-0172.

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AbstractMicroelectronic computers have encountered challenges in meeting all of today’s demands for information processing. Meeting these demands will require the development of unconventional computers employing alternative processing models and new device physics. Neural network models have come to dominate modern machine learning algorithms, and specialized electronic hardware has been developed to implement them more efficiently. A silicon photonic integration industry promises to bring manufacturing ecosystems normally reserved for microelectronics to photonics. Photonic devices have already found simple analog signal processing niches where electronics cannot provide sufficient bandwidth and reconfigurability. In order to solve more complex information processing problems, they will have to adopt a processing model that generalizes and scales. Neuromorphic photonics aims to map physical models of optoelectronic systems to abstract models of neural networks. It represents a new opportunity for machine information processing on sub-nanosecond timescales, with application to mathematical programming, intelligent radio frequency signal processing, and real-time control. The strategy of neuromorphic engineering is to externalize the risk of developing computational theory alongside hardware. The strategy of remaining compatible with silicon photonics externalizes the risk of platform development. In this perspective article, we provide a rationale for a neuromorphic photonics processor, envisioning its architecture and a compiler. We also discuss how it can be interfaced with a general purpose computer, i.e. a CPU, as a coprocessor to target specific applications. This paper is intended for a wide audience and provides a roadmap for expanding research in the direction of transforming neuromorphic photonics into a viable and useful candidate for accelerating neuromorphic computing.
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Lin, Qian, Xiao-Qi Sun, Meng Xiao, Shou-Cheng Zhang, and Shanhui Fan. "A three-dimensional photonic topological insulator using a two-dimensional ring resonator lattice with a synthetic frequency dimension." Science Advances 4, no. 10 (October 2018): eaat2774. http://dx.doi.org/10.1126/sciadv.aat2774.

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In the development of topological photonics, achieving three-dimensional topological insulators is of notable interest since it enables the exploration of new topological physics with photons and promises novel photonic devices that are robust against disorders in three dimensions. Previous theoretical proposals toward three-dimensional topological insulators use complex geometries that are challenging to implement. On the basis of the concept of synthetic dimension, we show that a two-dimensional array of ring resonators, which was previously demonstrated to exhibit a two-dimensional topological insulator phase, automatically becomes a three-dimensional topological insulator when the frequency dimension is taken into account. Moreover, by modulating a few of the resonators, a screw dislocation along the frequency axis can be created, which provides robust one-way transport of photons along the frequency axis. Demonstrating the physics of screw dislocation in a topological system has been a substantial challenge in solid-state systems. Our work indicates that the physics of three-dimensional topological insulators can be explored in standard integrated photonic platforms, leading to opportunities for novel devices that control the frequency of light.
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Novack, Ari, Matt Streshinsky, Ran Ding, Yang Liu, Andy Eu-Jin Lim, Guo-Qiang Lo, Tom Baehr-Jones, and Michael Hochberg. "Progress in silicon platforms for integrated optics." Nanophotonics 3, no. 4-5 (August 1, 2014): 205–14. http://dx.doi.org/10.1515/nanoph-2013-0034.

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AbstractRapid progress has been made in recent years repurposing CMOS fabrication tools to build complex photonic circuits. As the field of silicon photonics becomes more mature, foundry processes will be an essential piece of the ecosystem for eliminating process risk and allowing the community to focus on adding value through clever design. Multi-project wafer runs are a useful tool to promote further development by providing inexpensive, low-risk prototyping opportunities to academic and commercial researchers. Compared to dedicated silicon manufacturing runs, multi-project-wafer runs offer cost reductions of 100× or more. Through OpSIS, we have begun to offer validated device libraries that allow designers to focus on building systems rather than modifying device geometries. The EDA tools that will enable rapid design of such complex systems are under intense development. Progress is also being made in developing practical optical and electronic packaging solutions for the photonic chips, in ways that eliminate or sharply reduce development costs for the user community. This paper will provide a review of the recent developments in silicon photonic foundry offerings with a focus on OpSIS, a multi-project-wafer foundry service offering a silicon photonics platform, including a variety of passive components as well as high-speed modulators and photodetectors, through the Institute of Microelectronics in Singapore.
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Zhao, Han, and Liang Feng. "Parity–time symmetric photonics." National Science Review 5, no. 2 (January 18, 2018): 183–99. http://dx.doi.org/10.1093/nsr/nwy011.

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Abstract The establishment of non-Hermitian quantum mechanics (such as parity–time (PT) symmetry) stimulates a paradigmatic shift for studying symmetries of complex potentials. Owing to the convenient manipulation of optical gain and loss in analogy to complex quantum potentials, photonics provides an ideal platform for the visualization of many conceptually striking predictions from non-Hermitian quantum theory. A rapidly developing field has emerged, namely, PT-symmetric photonics, demonstrating intriguing optical phenomena including eigenstate coalescence and spontaneous PT-symmetry breaking. The advance of quantum physics, as the feedback, provides photonics with brand-new paradigms to explore the entire complex permittivity plane for novel optical functionalities. Here, we review recent exciting breakthroughs in PT-symmetric photonics while systematically presenting their underlying principles guided by non-Hermitian symmetries. The potential device applications for optical communication and computing, biochemical sensing and healthcare are also discussed.
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Hayran, Zeki, Seyyed Ali Hassani Gangaraj, and Francesco Monticone. "Topologically protected broadband rerouting of propagating waves around complex objects." Nanophotonics 8, no. 8 (May 9, 2019): 1371–78. http://dx.doi.org/10.1515/nanoph-2019-0075.

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AbstractAchieving robust propagation and guiding of electromagnetic waves through complex and disordered structures is a major goal of modern photonics research, for both classical and quantum applications. Although the realization of backscattering-free and disorder-immune guided waves has recently become possible through various photonic schemes inspired by topological insulators in condensed matter physics, the interaction between such topologically protected guided waves and free-space propagating waves remains mostly unexplored, especially in the context of scattering systems. Here, we theoretically demonstrate that free-space propagating plane waves can be efficiently coupled into topological one-way surface waves, which can seamlessly flow around sharp corners and electrically large barriers and release their energy back into free space in the form of leaky-wave radiation. We exploit this physical mechanism to realize topologically protected wave-rerouting around an electrically large impenetrable object of complex shape, with transmission efficiency exceeding 90%, over a relatively broad bandwidth. The proposed topological wave-rerouting scheme is based on a stratified structure composed of a topologically nontrivial magnetized plasmonic material coated by a suitable isotropic layer. Our results may open a new avenue in the field of topological photonics and electromagnetics, for applications that require engineered interactions between guided waves and free-space propagating waves, including for complex beam-routing systems and advanced stealth technology. More generally, our work may pave the way for robust defect/damage-immune scattering and radiating systems.
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Agio, Mario, Xunya Jiang, Maria Kafesaki, and Thomas Koschny. "Light-matter interaction in complex photonics systems: introduction." Journal of the Optical Society of America B 38, no. 9 (September 1, 2021): LMI1. http://dx.doi.org/10.1364/josab.441711.

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Guo, Xuexue, Yimin Ding, Xi Chen, Yao Duan, and Xingjie Ni. "Molding free-space light with guided wave–driven metasurfaces." Science Advances 6, no. 29 (July 2020): eabb4142. http://dx.doi.org/10.1126/sciadv.abb4142.

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Metasurfaces with unparalleled controllability of light have shown great potential to revolutionize conventional optics. However, they mainly require external light excitation, which makes it difficult to fully integrate them on-chip. On the other hand, integrated photonics enables packing optical components densely on a chip, but it has limited free-space light controllability. Here, by dressing metasurfaces onto waveguides, we molded guided waves into any desired free-space modes to achieve complex free-space functions, such as out-of-plane beam deflection and focusing. This metasurface also breaks the degeneracy of clockwise- and counterclockwise-propagating whispering gallery modes in an active microring resonator, leading to on-chip direct orbital angular momentum lasing. Our study shows a viable route toward complete control of light across integrated photonics and free-space platforms and paves a way for creating multifunctional photonic integrated devices with agile access to free space, which enables a plethora of applications in communications, remote sensing, displays, etc.
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Dissertations / Theses on the topic "Complex photonics"

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Saab-Estephan, Marie-Belle. "Rheology and photonics of complex biological systems." Thesis, Montpellier 2, 2010. http://www.theses.fr/2010MON20043.

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La rhéologie et la photonique de divers systèmes biologiques complexes allant des protéines jusqu'aux bactéries et cellules ont été étudiées dans cette thèse. Ces travaux se basent sur deux grands thèmes, où le premier traite la modification des surfaces solides avec des molécules biologiques tandis que le second se concentre sur l'étude des effets des différentes drogues sur des cellules malignes, et non malignes par des techniques microscopiques complémentaires. Dans ce travail, des matrices orientées de films de polyélectrolytes/membrane pourpre ont été produites et étudiées en fonction de différentes conditions physico-chimiques. Des peptides spécifiques présentant de propriétés de reconnaissance de surface pour le ZnSe et le Si ont été isolées par la technologie de Phage Display. Le peptide de Si a été utilisé dans la détection des molécules avec une microcavité de silicium poreux, et ceci a montré un meilleur seuil de détection comparé à celui des autres méthodes classiques de fonctionnalisation. Le peptide spécifique de ZnSe a été utilisé afin de démontrer son utilité pour la préservation de l'activité et structure secondaire native des biomolécules adsorbées. Concernant les cellules, une différence de réponse, entre deux types de cellules épithéliales mammaires malignes MCF-7 et non-malignes HMEC184A1, sous traitement avec la curcumine, a été démontrée sur les cellules vivantes et fixées. Après, une évaluation des forces d'interaction entre un agent clinique anticancéreux cetuximab (CET) et EGFR (Epidermal Growth Factor Receptor) sur la surface des cellules de carcinome épithéliales A431 a été réalisé via la microscopie à force atomique en mode force. Une différence sur l'élasticité des cellules et sur les forces de liaison EGFR-CET a été notée quand le CET a été combiné avec d'autres drogues thérapeutiques. Les résultats de nos études d'imagerie fonctionnelle pourraient ouvrir de nouvelles voies dans la recherche de traitements contre le cancer
The rheology and photonics of various complex biological systems ranging from proteins to bacteria and cells have been studied in this thesis. The work is organized around two major themes where the first one deals with surface modifications for adsorption of biological molecules while the second one focuses on comparative studies of non-malignant and cancerous cells under the effect of various drugs, using complementary microscopic techniques. In this work, oriented polyelectrolyte/purple membrane matrices have been produced and studied under different physico-chemical conditions. Peptides with surface recognition properties for the ZnSe and Si semiconductors have been isolated by Phage Display technology. The Si specific peptide has been used in detection of molecules with a porous silicon microcavity, providing a considerably enhanced detection resolution compared to traditional functionalization methods. The specific peptide of ZnSe has been used to demonstrate its utility in preservation of activity and native secondary structure of biomolecules in their adsorbed form. In the second part of my work concerning the cells, a different response (in morphology and elasticity) under treatment with curcumin, for two types of malignant MCF-7 and non-malignant HMEC184A1 mammary epithelial cells was demonstrated on living and fixed cells. Then, an evaluation of binding interactions between a clinical anticancer agent Cetuximab (CET) and the Epidermal Growth Factor Receptor (EGFR) on the surface of epithelial carcinoma A431 cells was performed via force mode atomic force microscopy. A difference was noted on the elasticity of cells and also on the EGFR-CET binding forces when CET was combined with other therapeutic drugs. The results of our functional imaging studies might open new avenues in the research for treatments against cancer
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Lyyttkäinen, Katja Johanna. "Control of complex structural geometry in optical fibre drawing /." Connect to full text, 2004. http://setis.library.usyd.edu.au/adt/public_html/adt-NU/public/adt-NU20041011.120247.

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Lyytikäinen, Katja Johanna. "Control of complex structural geometry in optical fibre drawing." Connect to full text, 2004. http://hdl.handle.net/2123/597.

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Thesis (Ph. D.)--University of Sydney, 2004.
Title from title screen (viewed 14 May 2008). Submitted in fulfilment of the requirements for the degree of Doctor of Philosophy to the School of Physics, Faculty of Science. Includes bibliographical references. Also available in print form.
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Jia, Baohua. "A study on the complex evanescent focal region of a high numerical aperture objective and its applications." Australasian Digital Thesis Program, 2006. http://adt.lib.swin.edu.au/public/adt-VSWT20070205.150740/index.html.

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Thesis (PhD) - Swinburne University of Technology, Faculty of Engineering and Industrial Sciences, Centre for Micro-Photonics, 2005.
A thesis submitted for the degree of Doctor of Philosophy, Centre for Micro-Photonics, Faculty of Engineering and Industrial Sciences, Swinburne University of Technology, 2005. Typescript. Bibliography: p. 129-142.
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Feng, Ning-Ning Huang Wei-Ping. "Modeling, simulation and design techniques for high-density complex photonic integrated devices and circuits." *McMaster only, 2005.

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Zhou, Dong Huang Wei-Ping. "Advanced finite-difference time-domain techniques for simulation of optical devices with complex material properties and geometric configurations /." *McMaster only, 2005.

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Onelli, Olimpia Domitilla. "Complex photonic structures in nature : from order to disorder." Thesis, University of Cambridge, 2018. https://www.repository.cam.ac.uk/handle/1810/273768.

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Structural colours arise from the interaction of visible light with nano-structured materials. The occurrence of such structures in nature has been known for over a century, but it is only in the last few decades that the study of natural photonic structures has fully matured due to the advances in imagining techniques and computational modelling. Even though a plethora of different colour-producing architectures in a variety of species has been investigated, a few significant questions are still open: how do these structures develop in living organisms? Does disorder play a functional role in biological photonics? If so, is it possible to say that the optical response of natural disordered photonics has been optimised under evolutionary pressure? And, finally, can we exploit the well-adapted photonic design principles that we observe in Nature to fabricate functional materials with optimised scattering response? In my thesis I try to answer the questions above: I microscopically investigate $\textit{in vivo}$ the growth of a cuticular multilayer, one of the most common colour-producing strategies in nature, in the green beetles $\textit{Gastrophysa viridula}$ showing how the interplay between different materials varies during the various life stages of the beetles; I further investigate two types of disordered photonic structures and their biological role, the random array of spherical air inclusions in the eggshells of the honeyguide $\textit{Prodotiscus regulus}$, a species under unique evolutionary pressure to produce blue eggs, and the anisotropic chitinous network of fibres in the white beetle $\textit{Cyphochilus}$, the whitest low-refractive index material; finally, inspired by these natural designs, I fabricate and study light transport in biocompatible highly-scattering materials.
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York, Seth. "Microwave Characterization of Printable Dielectric Inks Using Additive Manufacturing Methods." Scholar Commons, 2018. https://scholarcommons.usf.edu/etd/7385.

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Two methods of dielectric characterization are presented that offer quick and cost-effective solutions for screening complex dielectric material properties. Through Direct-Print Additive Manufacturing (DPAM) methods, a dielectric material of choice is dispensed into a capacitor structure and characterized through 1-port s-parameter measurements. The presented methods use fixtures that are modeled and validated through simulation then implemented in practice. Advanced simulations are performed to gain insights which are used to optimize the dielectric characterization performance of the fixtures. Additional investigations are performed which investigate the durability of the fixture and material within by exposing the combination to rough environmental conditions for an extended duration. The presented capacitor structures are investigated to characterize dielectric materials within the bandwidth of 0.1-15 GHz, saving the time and effort required in using multiple dielectric characterization methods that cover the same bandwidth. Both methods are compared based on the results for each method achieved in practice while considering the process required perform each method. The pros and cons of the presented characterization methods are weighed which highlights the key aspects for successfully characterizing dielectric materials with each method as well as revealing the potential limitations associated with each.
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Kosmeier, Sebastian. "Optical eigenmodes for illumination & imaging." Thesis, University of St Andrews, 2013. http://hdl.handle.net/10023/3369.

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This thesis exploits so called “Optical Eigenmodes” (OEi) in the focal plane of an optical system. The concept of OEi is introduced and the OEi operator approach is outlined, for which quadratic measures of the light field are expressed as real eigenvalues of an Hermitian operator. As an example, the latter is employed to locally minimise the width of a focal spot. The limitations of implementing these spots with state of the art spatial beam shaping technique are explored and a selected spot with a by 40 % decreased core width is used to confocally scan an in focus pair of holes, delivering a two-point resolution enhanced by a factor of 1.3. As a second application, OEi are utilised for fullfield imaging. Therefore they are projected onto an object and for each mode a complex coupling coefficient describing the light-sample interaction is determined. The superposition of the OEi weighted with these coefficients delivers an image of the object. Compared to a point-by-point scan of the sample with the same number of probes, i.e. scanning points, the OEi image features higher spatial resolution and localisation of object features, rendering OEi imaging a compressive imaging modality. With respect to a raster scan a compression by a factor four is achieved. Compared to ghost imaging as another fullfield imaging method, 2-3 orders of magnitude less probes are required to obtain similar images. The application of OEi for imaging in transmission as well as for fluorescence and (surface enhanced) Raman spectroscopy is demonstrated. Finally, the applicability of the OEi concept for the coherent control of nanostructures is shown. For this, OEi are generated with respect to elements on a nanostructure, such as nanoantennas or nanopads. The OEi can be superimposed in order to generate an illumination of choice, for example to address one or multiple nanoelements with a defined intensity. It is shown that, compared to addressing such elements just with a focussed beam, the OEi concept reduces illumination crosstalk in addressing individual nanoelements by up to 70 %. Furthermore, a fullfield aberration correction is inherent to experimentally determined OEi, hence enabling addressing of nanoelements through turbid media.
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Dzibrou, Dzmitry. "Complex Oxide Photonic Crystals." Licentiate thesis, KTH, Microelectronics and Applied Physics, MAP, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-11068.

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Microphotonics has been offering a body of ideas to prospective applicationsin optics. Among those, the concept of photonic integrated circuits (PIC’s) has recently spurred a substantial excitement into the scientific community. Relisation of the PIC’s becomes feasible as the size shrinkage of the optical elements is accomplished. The elements based on photonic crystals (PCs) represent promising candidacy for manufacture of PIC’s. This thesis is devoted to tailoring of optical properties and advanced modelling of two types of photonic crystals: (Bi3Fe5O12/Sm3Ga5O12)m and (TiO2/Er2O3)m potentially applicable in the role optical isolators and optical amplifiers, respectively. Deposition conditions of titanium dioxide were first investigated to maximise refractive index and minimise absorption as well as surface roughness of titania films. It was done employing three routines: deposition at elevated substrate temperatures, regular annealing in thermodynamically equilibrium conditions and rapid thermal annealing (RTA). RTA at 500 oC was shown to provide the best optical performance giving a refractive index of 2.53, an absorption coefficient of 404 cm−1 and a root-mean-square surface roughness of 0.6 nm. Advanced modelling of transmittance and Faraday rotation for the PCs (Bi3Fe5O12/Sm3Ga5O12)5 and (TiO2/Er2O3)6 was done using the 4 × 4 matrix formalism of Višňovský. The simulations for the constituent materials in the forms of single films were performed using the Swanepoel and Višňovský formulae. This enabled generation of the dispersion relations for diagonal and off-diagonal elements of the permittivity tensors relating to the materials. These dispersion relations were utilised to produce dispersion relations for complex refractive indices of the materials. Integration of the complex refractive indices into the 4 × 4 matrix formalism allowed computation of transmittance and Faraday rotation of the PCs. The simulation results were found to be in a good agreement with the experimental ones proving such a simulation approach is an excellent means of engineering PCs.

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Books on the topic "Complex photonics"

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Noginov, Mikhail A. Tutorials in complex photonic media. Bellingham, Wash: SPIE Press, 2009.

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Noginov, Mikhail A. Tutorials in complex photonic media. Bellingham, Wash: SPIE Press, 2009.

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Tuchin, V. V. Complex dynamics and fluctuations in biomedical photonics V: 19, 21 January 2008, San Jose, California, USA. Edited by SPIE (Society). Bellingham, Wash: SPIE, 2008.

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Fickler, Robert. Quantum Entanglement of Complex Structures of Photons. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-22231-8.

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Andreychikov, Aleksandr, and Ol'ga Andreychikova. Intelligent information systems and artificial intelligence methods. ru: INFRA-M Academic Publishing LLC., 2021. http://dx.doi.org/10.12737/1009595.

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The textbook discusses the methods of artificial intelligence and their application to solve problems from various subject areas. Methods of acquisition, representation and processing of knowledge in intelligent systems, as well as technologies for designing and implementing intelligent systems, are described. Special attention is paid to the application of intelligent systems for the selection of collective solutions, the design of complex systems( objects), the analysis and forecasting of the enterprise. Meets the requirements of the federal state educational standards of higher education of the latest generation. For students enrolled in groups of training master's degree program "Management in technical systems", "Computer and information science", "computer science", "engineering and technology land transport", "engineering and construction technology", "Photonics, instrumentation, optical and biotechnical systems and technology", "aerospace engineering", "engineering and technologies of shipbuilding and water transport", and also in the areas of "automation of technological processes and productions", "mechatronics and robotics".
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Alicante, Raquel. Photoinduced Modifications of the Nonlinear Optical Response in Liquid Crystalline Azopolymers. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013.

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A, Noginov Mikhail, ed. Tutorials in complex photonic media. Bellingham, Wash: SPIE, 2009.

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A, Noginov Mikhail, ed. Tutorials in complex photonic media. Bellingham, Wash: SPIE, 2009.

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Kumar, Pramod, and Kamal P. Singh. Natural Biophotonic Architectures: Complex Optical Effects and Bioimimetic Applications. Taylor & Francis Group, 2018.

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L, Andrews David. Complex Light and Optical Forces IX. SPIE, 2015.

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Book chapters on the topic "Complex photonics"

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Choi, Youngwoon, Moonseok Kim, and Wonshik Choi. "Exploiting Complex Media for Biomedical Applications." In Handbook of Photonics for Biomedical Engineering, 1–26. Dordrecht: Springer Netherlands, 2014. http://dx.doi.org/10.1007/978-94-007-6174-2_28-1.

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Choi, Youngwoon, Moonseok Kim, and Wonshik Choi. "Exploiting Complex Media for Biomedical Applications." In Handbook of Photonics for Biomedical Engineering, 271–301. Dordrecht: Springer Netherlands, 2017. http://dx.doi.org/10.1007/978-94-007-5052-4_28.

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Ambika, G., G. M. Shanthala, Preeta Sharan, and Srinivas Talabattula. "An Optimized Design of Complex Multiply-Accumulate (MAC) Unit in Quantum Dot Cellular Automata (QCA)." In Silicon Photonics & High Performance Computing, 95–102. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-7656-5_11.

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Samoili, Sofia, Riccardo Righi, Montserrat Lopez-Cobo, Melisande Cardona, and Giuditta De Prato. "Unveiling Latent Relations in the Photonics Techno-Economic Complex System." In Communications in Computer and Information Science, 72–90. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-21733-4_6.

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Gerdjikov, V. S., E. G. Evstatiev, D. J. Kaup, G. L. Diankov, and I. M. Uzunov. "The N-Soliton Interactions, Complex Toda Chain and Stable Propagation of NLS Soliton Trains." In Advanced Photonics with Second-Order Optically Nonlinear Processes, 219–26. Dordrecht: Springer Netherlands, 1999. http://dx.doi.org/10.1007/978-94-007-0850-1_15.

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Soukoulis, C. M. "Photonic Band Gap Materials." In Diffuse Waves in Complex Media, 93–107. Dordrecht: Springer Netherlands, 1999. http://dx.doi.org/10.1007/978-94-011-4572-5_4.

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Figotin, Alexander. "High-Contrast Photonic Crystals." In Diffuse Waves in Complex Media, 109–36. Dordrecht: Springer Netherlands, 1999. http://dx.doi.org/10.1007/978-94-011-4572-5_5.

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Righi, Riccardo, Sofia Samoili, Miguel Vazquez-Prada Baillet, Montserrat Lopez-Cobo, Melisande Cardona, and Giuditta De Prato. "Nestedness Temperature in the Agent-Artifact Space: Emergence of Hierarchical Order in the 2000–2014 Photonics Techno-Economic Complex System." In Communications in Computer and Information Science, 134–44. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-45016-8_14.

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Salgueiro, José R., and Albert Ferrando. "Spatial Solitons in Nonlinear Photonic Crystal Fibers." In Understanding Complex Systems, 139–71. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-72218-4_6.

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Vekshin, Nikolai L. "Discrete Emission States in Photoexcited Tryptophan Complexes." In Photonics of Biopolymers, 74–89. Berlin, Heidelberg: Springer Berlin Heidelberg, 2002. http://dx.doi.org/10.1007/978-3-662-04947-1_9.

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Conference papers on the topic "Complex photonics"

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Denz, C., B. Terhalle, D. Göries, P. Rose, J. Xavier, T. Richter, A. S. Desyatnikov, et al. "Nonlinear photonics in multi-dimensional and complex photonic lattices." In SPIE Europe Optics + Optoelectronics, edited by Mario Bertolotti. SPIE, 2009. http://dx.doi.org/10.1117/12.823758.

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Caulfield, H. John. "Holograms as complex media." In Optics & Photonics 2005, edited by Martin W. McCall, Graeme Dewar, and Mikhail A. Noginov. SPIE, 2005. http://dx.doi.org/10.1117/12.613264.

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Tropp, Joel A. "Complex equiangular tight frames." In Optics & Photonics 2005, edited by Manos Papadakis, Andrew F. Laine, and Michael A. Unser. SPIE, 2005. http://dx.doi.org/10.1117/12.618821.

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Nordlander, Peter, Fei Le, and Yanpeng Wu. "Plasmon hybridization in complex metallic nanostructures." In Optics & Photonics 2005, edited by Mark I. Stockman. SPIE, 2005. http://dx.doi.org/10.1117/12.613704.

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François, Véronique, and Seyed Sadreddin Aboutorabi. "Mechanical cleavage of complex microstructured fibers." In Photonics North 2005, edited by Peter Mascher, Andrew P. Knights, John C. Cartledge, and David V. Plant. SPIE, 2005. http://dx.doi.org/10.1117/12.628618.

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Ivanova, Svetlana V. "Complex image processing in nonlinear crystals." In Photonics East '99, edited by Mahmoud Fallahi and Basil I. Swanson. SPIE, 1999. http://dx.doi.org/10.1117/12.372924.

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Bonifazi, Giuseppe, and Silvia Serranti. "Hyperspectral imaging applied to complex particulate solids systems." In Photonics Europe, edited by Francis Berghmans, Anna G. Mignani, Antonello Cutolo, Patrick P. Meyrueis, and Thomas P. Pearsall. SPIE, 2008. http://dx.doi.org/10.1117/12.781641.

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Vincent, G., R. Haïdar, S. Collin, E. Cambril, S. Velghe, J. Primot, F. Pardo, and J. L. Pelouard. "Complex transmittance gratings based on subwavelength metallic structures." In Photonics Europe, edited by David L. Andrews, Jean-Michel Nunzi, and Andreas Ostendorf. SPIE, 2006. http://dx.doi.org/10.1117/12.668533.

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Luchenko, A. I., M. M. Melnichenko, K. V. Svezhentsova, and O. M. Shmyryeva. "Complex studies of properties of nanostructured silicon." In SPIE Optics + Photonics, edited by Elizabeth A. Dobisz and Louay A. Eldada. SPIE, 2006. http://dx.doi.org/10.1117/12.680668.

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Dalton, Larry, Yi Liao, Philip Sullivan, and Bruce Robinson. "Theoretically-inspired nanoengineering of complex photonic media." In SPIE Optics + Photonics, edited by Graeme Dewar, Martin W. McCall, Mikhail A. Noginov, and Nikolay I. Zheludev. SPIE, 2006. http://dx.doi.org/10.1117/12.675273.

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You might also be interested in the extended bibliographies on the topic 'Complex photonics' for particular source types:
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