Design And Fabrication Of Guided Mode Resonance Devices

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Design and Fabrication of Guided-mode Resonance Devices

Author : Guoliang Chen
Publisher :
ISBN 13 :
Total Pages : 84 pages
Book Rating : 4.:/5 (945 download)

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Book Synopsis Design and Fabrication of Guided-mode Resonance Devices by : Guoliang Chen

Download or read book Design and Fabrication of Guided-mode Resonance Devices written by Guoliang Chen and published by . This book was released on 2016 with total page 84 pages. Available in PDF, EPUB and Kindle. Book excerpt: Guided-mode resonance (GMR) effect based on waveguide grating structure has been attracting plenty of attention in recent years due to its abundant application in energy, information technology, and sensors. This dissertation aims to develop new GMR devices and apply them in the above fields. Initially thermoelectric devices integrated with optical resonance absorbers are demonstrated. We design the absorbers with rigorous numerical methods and fashion experimental prototypes by thin-film deposition, patterning, and etching. A ~2.5-mm-thick p-type heavily doped polysilicon film on a ~2-mm layer of thermally grown SiO2 enables guided-mode resonance. The SiO2 layer additionally serves to thermally insulate the polysilicon layer from the Si substrate. A grating layer is etched into the polysilicon film to form the absorber. Thus, the polysilicon film works as a functional material for both the absorber and the thermoelectric converter itself. Numerical simulations show that the resonance segment enhances absorption by ~30% in the visible spectral range and by ~40% in the infrared range relative to unpatterned devices. Moreover, experimental results demonstrate significantly increased electrical output over reference devices. These simple devices can be applied as compact voltage generators and IR sensors. Thereafter GMR multiline devices are investigated. As a preliminary study, a glass-sub multiline guided-mode resonance (GMR) filter is applied as a reflector in order to implement an external cavity laser. We design the resonant element using rigorous numerical methods and fashion an experimental prototype by thin-film deposition, patterning, and etching. A ~100-nm TiO2 grating layer on a ~170-micrometer-thick glass slab supports thousands of resonant modes. We detect ~10 narrow resonance peaks within a ~10-nm wavelength range centered at the 840-nm wavelength. We apply this multiline GMR device to a gain chip and obtain several simultaneous resonant laser lines that compete for the gain. Precise tuning enables a stable laser line that can be selected from the multiple available resonant lines. Furthermore we investigate GMR multiline devices in more detail and with better performances. GMR multiline filters exhibiting resonance lines on a dense spectral grid in a broad near infrared (NIR) wavelength range are demonstrated. We design the filters using rigorous numerical methods and then proceed with experimental verification by patterning, etching, and collecting spectral data. In one embodiment, we design and fabricate thick Si slab-based multiline filters within a wavelength range centered at the 1550 nm with potential application in high sensitivity gas sensors and signal processing system. Devices with two types of gratings, Si grating and TiO2 grating, are demonstrated experimentally with TiO2 grating devices exhibiting better performances. For TiO2 grating devices we can detect 12 narrow resonance peaks within a 10 nm wavelength range centered at the 1550 nm. The spectral width of each resonance peak is ~0.1 nm with free spectral range of ~0.8 nm. High efficiency of ~0.9 and low sideband of ~0.01 can be obtained for individual device output. Design of polarization independent multiline filter and Brewster multiline filter are also presented. Finally, we apply GMR devices to implement the return-to-zero (RZ) and nonreturn- to-zero (NRZ) formats conversion. We realize the conversion by two solutions. For solution one RZ toNRZ conversion is done by 2 cascading filters - GMR multiline filter and Gauss filter. We simulate the complete conversion flow using MATLAB where the spectral data of the GMR multiline device is directly input into the MATLAB codes. We successfully obtained a converted NRZ signal. For solution two we prove that an individual filter possessing Gaussian shape can also realize the conversion. Furthermore we design GMR filters to possess spectral shape matched to the referred optimal FBG filter spectrum. By doing this we can theoretically prove that one individual GMR filter (reflection or transmission) can implement RZtoNRZ conversion with good performance.

Fabrication and Characterization of Guided-mode Resonance Devices

Author : Kyu Jin Lee
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (711 download)

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Book Synopsis Fabrication and Characterization of Guided-mode Resonance Devices by : Kyu Jin Lee

Download or read book Fabrication and Characterization of Guided-mode Resonance Devices written by Kyu Jin Lee and published by . This book was released on 2010 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Design and Fabrication of Optically-pumped Guided-mode Resonance Surface-emitting Lasers

Author : Preston P. Young
Publisher :
ISBN 13 : 9780542604904
Total Pages : pages
Book Rating : 4.6/5 (49 download)

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Book Synopsis Design and Fabrication of Optically-pumped Guided-mode Resonance Surface-emitting Lasers by : Preston P. Young

Download or read book Design and Fabrication of Optically-pumped Guided-mode Resonance Surface-emitting Lasers written by Preston P. Young and published by . This book was released on 2006 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: This dissertation describes the design and fabrication of guided-mode resonance (GMR) structures and their applications to laser devices. These include tunable Ti:Sapphire lasers as well as semiconductor lasers with integrated light emitting layers. The resonance characteristics of GMR structures are determined by the designed and fabricated waveguide-grating parameters. The primary tool for the design and simulation analysis of GMR devices is rigorous coupled-wave analysis (RCWA). This numerical method is used to provide diffraction efficiency calculations as well as simulations of the electric fields within GMR structures. RCWA-based field analysis is used to design an optically pumped GMR surface-emitting laser (GMR-SEL) in the GaAs/AlxGa1-x As material system with an In0.2Ga0.8As quantum well for output wavelength near 980 nm. All optical GMR devices require patterning of sub-micron diffraction grating structures. Preliminary GMR grating fabrication is performed by holographic interference lithography and is optimized by utilizing a charge-coupled device (CCD) camera-based fringe stabilization system. Prototype GMR-SEL devices are fabricated in the GaAs/AlxGa1-xAs material system by electron-beam lithography and reactive-ion etching (RIE). Electron-beam lithography is performed using hydrogen silsesquioxane (HSQ) as high-resolution resist material. The results of exposure proximity correction for electron-beam lithography are presented. An RIE process suitable for reliable etching of the HSQ grating patterns into a semiconductor GMR-SEL wafer is developed and characterized. The fabricated prototype GMR-SEL devices are optically pumped at an oblique GMR resonance angle near 45° corresponding to the 810 nm output of a Ti:Sapphire laser. Whereas these elements have insufficient gain for lasing, the measured photoluminescence spectra for several devices exhibit spectral peaks that occur precisely at the theoretical GMR-SEL resonance locations. Therefore, this dissertation provides results and methods useful to experimentally realize prototype GMR-SEL devices fabricated in semiconductor materials.

Design and Fabrication of Germanium-based Guided-mode Resonance Infrared Reflectors and Gold-based Nanocavity Plasmonic Arrays

Author : Daniel John Carney
Publisher :
ISBN 13 :
Total Pages : 123 pages
Book Rating : 4.:/5 (132 download)

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Book Synopsis Design and Fabrication of Germanium-based Guided-mode Resonance Infrared Reflectors and Gold-based Nanocavity Plasmonic Arrays by : Daniel John Carney

Download or read book Design and Fabrication of Germanium-based Guided-mode Resonance Infrared Reflectors and Gold-based Nanocavity Plasmonic Arrays written by Daniel John Carney and published by . This book was released on 2019 with total page 123 pages. Available in PDF, EPUB and Kindle. Book excerpt: Design, fabrication, and measurement techniques for germanium-based guided-mode resonance infrared wideband reflectors and applications of guided-mode resonance devices for sensing and measurement applications are presented. Germanium is a versatile semiconductor with physical properties similar to silicon but optical properties that make it well suited for the infrared wavelengths. It has a high refractive index and negligible absorption in the mid to far infrared spectral region that can be used to create high field confinement necessary for wideband and high quality factor devices. Fabrication of germanium devices becomes straight-forward once the physical matters of germanium's material bonding properties and surface chemistries are accounted for. Fabrication steps are presented for the deposition of thick germanium films using sputtering or electron beam evaporation methods, patterning the films using lithographic and nano-imprinting, and etching of these films to fabricate a guided-mode resonant or other photonic device. Designs are presented for four archetypal wideband longwave infrared guided-mode resonance reflectors, and the simplest design choice is fabricated as a proof of concept. Additional fabrication techniques are demonstrated with the device that involve depositing an additional conformal layer in order to refine its spectral response. Sputtered germanium films are found to have dynamic refractive index characteristics, and a study is carried out on their optical properties. The optical properties of sputtered germanium films are studied as they are found to vary from a 4% decrease to a 15% increase in their index of refraction over bulk crystalline material depending on the deposited layer thickness. Possible mechanisms driving this variance are discussed, and the refractive index of five separate films is measured and verified using a combination of Fabry-Perot transmission measurements and resonant measurements from guided-mode resonance devices patterned into the films. The material properties of the films are studied using energy-dispersive spectroscopy and x-ray diffraction spectroscopy and are found to indicate that no unexpected material compounds are present in the films that may be contributing to the refractive index shifts. Lastly, a chapter is included studying the resonant properties of plasmonic nano-cavity arrays. The resonant response of an array of gold nanocups is analyzed to discern its physical origin and found to be closely related to research governing the transmission of light through thin metallic films perforated with aperture arrays. The resonant response is determined to be a combination of the interaction of plasmonic modes with evanescent cavity modes within the array.

Design, Fabrication and Chacterization of Guided-mode Resonance Transmission Filters

Author : Mohammad Shyiq Amin
Publisher :
ISBN 13 :
Total Pages : 96 pages
Book Rating : 4.:/5 (892 download)

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Book Synopsis Design, Fabrication and Chacterization of Guided-mode Resonance Transmission Filters by : Mohammad Shyiq Amin

Download or read book Design, Fabrication and Chacterization of Guided-mode Resonance Transmission Filters written by Mohammad Shyiq Amin and published by . This book was released on 2014 with total page 96 pages. Available in PDF, EPUB and Kindle. Book excerpt: This dissertation addresses photonic devices enabled by the guided-mode resonance (GMR) effect. As periodic phototonic structures can become highly reflective or transmissive at resonance, this effect has been utilized to design suites of optical elements including reflection filters, transmission filters, broadband mirrors, polarizers, and absorbers with a plethora of possible deployment venues. Even though there has been considerable research on the reflection type GMR elements, attendant transmission filters have less explored experimentally, as there is material limitation to design this kind of filters with simple architecture and they also may require coupling to multiple resonances simultaneously. Apart from the design issues, experimental realization of these filters is challenging. There have not been any experimental reports on optical transmission filters with narrow transmission band and high efficiency and well defined low sidebands. In this Dissertation, we design, fabricate and characterize narrow band guided-mode resonance transmission filters. Initially we study a way to engineer the optical constants of amorphous silicon (a- Si) suitable for different applications. Rapid thermal annealing is applied to induce crystallization of sputtered amorphous silicon deposited on thermally grown oxide layers. The influence of annealing temperatures in the range of 600°C-980°C is systematically investigated. Using scanning-electron microscopy, ellipsometry and x-ray diffraction techniques, the structural and optical properties of the films are determined. An order-ofmagnitude reduction of the extinction coefficient is achieved. We show that the optical constants can be tuned for different design requirements by controlling the process parameters. For example, we obtain a refractive index of ~3.66 and an extinction coefficient of ~0.0012 at the 1550-nm wavelength as suitable for GMR transmission filter applications where a high refractive index and low extinction coefficient is desired. We design transmission filters for both transverse electric (TE) and transverse magnetic (TM) polarizations and experimentally demonstrate a simple and geometrically tunable narrowband transmission filter for TM polarization using a one-dimensional silicon grating. We interpret the response in terms of symmetry of the guided modes in a dielectric slab waveguide, with numerical analysis and experimental results. The filter exhibits a 50-nm wide transmission peak with 60% efficiency at off-normal incidence in the telecommunication wavelength region. We can achieve higher efficiency with broader linewidths from larger incidence angles. We also explain the challenges that the experimental realization of these devices entail such as susceptibility to extinction coefficient, mode confinement, and surface irregularities. Moreover, we provide a new principle for optical transmission filters based on the GMR effect cooperating with the Rayleigh anomaly in a subwavelength nanograting. We theoretically and experimentally show that the onset of higher diffraction orders at the Rayleigh anomaly can dramatically sharpen a GMR transmission peak in both spectral and angular domains. There results a unique transmission spectrum that is tightly delimited in angle and wavelength as demonstrated with a precisely fabricated device. Finally, we report experimental research on GMR transmission filters based on a Fabry-Perot cavity. We achieve a resonance linewidth of close to 3 nm with attendant free spectral range (FSR) of 7 nm. Even though the efficiency of the resonance peak is not high, we can improve the results by applying low-loss materials and generate broad low sidebands by decreasing the cavity length with a micro-control translation stage.

Guided-mode Resonant Filters and Reflectors

Author : Manoj Niraula
Publisher :
ISBN 13 :
Total Pages : 110 pages
Book Rating : 4.:/5 (973 download)

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Book Synopsis Guided-mode Resonant Filters and Reflectors by : Manoj Niraula

Download or read book Guided-mode Resonant Filters and Reflectors written by Manoj Niraula and published by . This book was released on 2016 with total page 110 pages. Available in PDF, EPUB and Kindle. Book excerpt: Thin-film structures incorporating wavelength-scale gratings provide functionalities for applications in various optical systems. Previously, spectral filters, wideband reflectors, and polarizers have been identified as potential application areas. In this dissertation, we overview the operational principles of these resonant periodic structures, discuss the methods of their design and fabrication, and propose and demonstrate novel functionalities for spatial and spectral filtering, and unpolarized wideband reflection. Fashioned with materially sparse gratings, these optical devices are easy to fabricate and integration friendly compared to their traditional multi-layer counterparts making their research and development critical for practical applications. We study, theoretically, modal properties and parametric dependence of resonant periodic bandpass filters operating in the mid- and near-infrared spectral domains. We investigate three different device architectures consisting of single, double, and triple layers based on all-transparent dielectric and semiconductor thin films. The three device classes show high-performance bandpass filter profiles with broad, flat low-transmission sidebands accommodating sharp transmission peaks with their efficiencies approaching 100% with appropriate blending of multiple guided modes. We present three modal coupling configurations forming complex mixtures of two or three distinct leaky modes coupling at different evanescent diffraction orders. These modal compositions produce various widths of sidebands ranging from ~30 nm to ~2100 nm and transmission peak-linewidths ranging from ~1 pm to ~10 nm. Our modal analysis demonstrates key attributes of subwavelength periodic thin-film structures in multiple-modal blending to achieve desired transmission spectra. We provide the first experimental demonstration of high-efficiency and narrow-linewidth resonant bandpass filter applying a single patterned silicon layer on a quartz substrate. Its performance corresponds to bandpass filters requiring 15 traditional Si/SiO2 thin-film layers. The feasibility of sparse narrowband, high-efficiency bandpass filters with extremely wide, flat, and low sidebands is thereby demonstrated. This class of devices is designed with rigorous solutions of Maxwell's equations while engaging the physical principles of resonant waveguide gratings. An experimental filter presented exhibits a transmittance of ~72%, bandwidth of ~0.5 nm, and low sidebands spanning ~100 nm. The proposed technology is integration-friendly and opens doors for further development in various disciplines and spectral regions where thin-film solutions are traditionally applied. We demonstrate concurrent spatial and spectral filtering as a new outstanding attribute of resonant periodic devices. This functionality is enabled by a unique, near-complete, reflection state that is discrete in both angular and spectral domains and realized with carefully crafted nanogratings operating in the non-subwavelength regime. We study the pathway and inter-modal interference effects inducing this intriguing reflection state. In a proof-of-concept experiment, we obtain angular and spectral bandwidths of ~4 mrad and ~1 nm, respectively. This filter concept can be used for focus-free spectral and spatial filtering in compact holographic and interferometric optical instruments. We report unpolarized broadband reflectors enabled by a serial arrangement of a pair of polarized subwavelength gratings. Optimized with inverse numerical methods, our elemental gratings consist of a partially etched crystalline-silicon film on a quartz substrate. The resulting reflectors exhibit extremely wide spectral reflection bands in one polarization. By arranging two such reflectors sequentially with orthogonal periodicities, there results an unpolarized spectral band possessing bandwidth exceeding those of the individual polarized bands. In the experiments reported herein, we achieve zero-order reflectance exceeding 97% under unpolarized light incidence over a 500-nm-wide wavelength band in the near-infrared domain. Moreover, the resonant unpolarized broadband accommodates an ultra-high-reflection band spanning ~85 nm and exceeding 99.9% in efficiency. The elemental polarization-sensitive reflectors based on one-dimensional resonant gratings have simple design, robust performance, and are straightforward to fabricate. Hence, this technology is a promising alternative to traditional multilayer thin-film reflectors especially at longer wavelengths of light where multilayer deposition may be infeasible or impractical. We demonstrate an interesting attribute of resonant bandpass filters which is high angular stability for fully conical light incidence. Fashioning an experimental bandpass filter with a subwavelength silicon grating on a quartz substrate, we show that fully conical incidence provides an angular full-width at half-maximum linewidth of ~9.5° compared to a linewidth of ~0.1° for classical incidence. Slow angular variation of the central wavelength with full conical incidence arises via a corresponding slow angular variation of the resonant second diffraction orders driving the pertinent leaky modes. Moreover, full conical incidence maintains a profile with a single passband as opposed to the formation of two passbands characteristic of resonant subwavelength gratings under classical incidence. Our experimental results demonstrate excellent stability in angle, spectral profile, linewidth, and efficiency. Finally, we propose a novel method of design and fabrication of photonic lattices that incorporates the best of both worlds: a polarized resonant grating can be designed and converted to its unpolarized lattice equivalent using the same design parameters to obtain a similar performance. We show this in context of a single-layer polarized bandpass filter operating at 1550 nm with ~100% transmission efficiency. An unpolarized square-hole lattice with identical parameters operates as a bandpass filter at ~1560 nm with ~70% transmission efficiency. Moreover, conventional laser interference lithography technique for mask patterning is limited to circular-hole photoresist lattice. We propose a method to lay down a metal hard-mask by lifting-off patterned photoresist in two steps for a square-hole lattice. Our comprehensive study provides new principles for easy design and fabrication of square-hole photonic lattices for unpolarized guided-mode resonance applications.

Guided-mode Resonant Solar Cells and Flat-top Reflectors

Author : Tanzina Khaleque
Publisher :
ISBN 13 :
Total Pages : 96 pages
Book Rating : 4.:/5 (892 download)

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Book Synopsis Guided-mode Resonant Solar Cells and Flat-top Reflectors by : Tanzina Khaleque

Download or read book Guided-mode Resonant Solar Cells and Flat-top Reflectors written by Tanzina Khaleque and published by . This book was released on 2014 with total page 96 pages. Available in PDF, EPUB and Kindle. Book excerpt: This dissertation addresses the guided-mode resonance (GMR) effect and its applications. In particular, this study presents theoretical analysis and corresponding experiments on two important GMR devices that can be broadly described as GMR-enabled thin-film solar cells and flat-top reflectors. The GMR-induced enhanced absorption of input light is observed and quantified in a fabricated nano-patterned amorphous silicon (a-Si) thin-film. Compared to a reference homogeneous thin-film of a-Si, approximately 50% integrated absorbance enhancement is achieved in the patterned structure. This result motivates the application of these resonance effects in thin-film solar cells where enhanced solar absorbance is a crucial requirement. Light trapping in thin-film solar cells through the GMR effect is theoretically explained and experimentally demonstrated. Nano-patterned solar cells with 300-nm periods in one-dimensional gratings are designed, fabricated, and characterized. Compared to a planar reference solar cell, around 35% integrated absorption enhancement is observed over the 450-750-nm wavelength range. This light-management method results in enhanced short-circuit current density of 14.8 mA/cm2, which is a ~40% improvement over planar solar cells. The experimental demonstration proves the potential of simple and well-designed guided-mode resonant features in thin-film solar cells. In order to complement the research on GMR thin-film solar cells, a single-step, low-cost fabrication method for generating resonant nano-grating patterns on poly-methyl-methacrylate (PMMA; plexiglas) substrates using thermal nano-imprint lithography is reported. The imprinted structures of both one and two dimensional nano-grating patterns with 300 nm period are fabricated. Thin films of indium-tin-oxide and silicon are deposited over patterned substrates and the absorbance of the films is measured. Around 25% and 45% integrated optical absorbance enhancement is observed over the 450-nm to 900-nm wavelength range in one- and two-dimensional patterned samples, respectively. In addition, two types of GMR flat-top reflectors have been designed, analyzed, fabricated and experimentally demonstrated. The first one is GMR broadband reflector in the spectral domain whereas the second is a Rayleigh reflector in the angular domain. The designed broadband reflector exhibits more than 99% reflectance over a spectral width of 380 nm ranging from 1440 to 1820 nm wavelength. Experimental reflectance greater than 90% is achieved over a ~360-nm bandwidth. The reported reflector bandwidth exceeds comparable published results for two-part periodic structures working in transverse electric polarization. In the Rayleigh reflector, the interaction of GMR and Rayleigh anomaly creates an extraordinary photonic response and results in a flat-top angularly delimited optical filter. The physical process of the rapid energy exchange between the reflected zero-order wave and a propagating substrate wave across a small angular change is investigated with numerical computations. An experimental proof of the Rayleigh reflector concept is presented. The combined GMR-Rayleigh anomaly effect holds the potential to portend a new research area of novel photonic devices with interesting and useful attributes.

Highly Compliant Guided-mode Resonance Nanogratings

Author : Steven J. Foland
Publisher :
ISBN 13 :
Total Pages : 194 pages
Book Rating : 4.:/5 (854 download)

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Book Synopsis Highly Compliant Guided-mode Resonance Nanogratings by : Steven J. Foland

Download or read book Highly Compliant Guided-mode Resonance Nanogratings written by Steven J. Foland and published by . This book was released on 2013 with total page 194 pages. Available in PDF, EPUB and Kindle. Book excerpt: An extensive toolset is required for the design of such resonant optical devices; this dissertation defines the theoretical and simulations models used for the analysis of these dynamic grating devices, and provides a clear understanding of both their strengths and limitations. These tools include a waveguide-theory based theoretical model for rapid approximation of grating resonance conditions, and finite element method (FEM) simulation for full-field solutions to Maxwell's equations.

Theory and Design of a Tunable Guided-mode Resonance Sensor

Author : Steven J. Foland
Publisher :
ISBN 13 :
Total Pages : 118 pages
Book Rating : 4.:/5 (7 download)

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Book Synopsis Theory and Design of a Tunable Guided-mode Resonance Sensor by : Steven J. Foland

Download or read book Theory and Design of a Tunable Guided-mode Resonance Sensor written by Steven J. Foland and published by . This book was released on 2010 with total page 118 pages. Available in PDF, EPUB and Kindle. Book excerpt: This work provides an overview of the theory used in the study of guided-mode resonance (GMR) gratings, as well as the application of that theory to the design of a tunable GMR device. Several simple models are presented which aid the understanding of the fundamental principles of GMR. Rigorous coupled-wave analysis and finite element method simulation are implemented for the analysis of several grating structures. These tools are applied to the design of a tunable one-dimensional GMR grating. This device, which is tuned via changes in air-pressure, consists of a titanium dioxide grating structure embedded in a flexible polydimethylsiloxane membrane. The grating produces a resonance response at a wavelength dependent upon the refractive index of the surrounding medium. By varying the pressure, lateral strain is applied to the grating, allowing resonances to be produced for a wide range of refractive indices at a fixed wavelength of 850 nm.

Masters Theses in the Pure and Applied Sciences

Author : Wade H. Shafer
Publisher : Springer Science & Business Media
ISBN 13 : 1461559693
Total Pages : 341 pages
Book Rating : 4.4/5 (615 download)

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Book Synopsis Masters Theses in the Pure and Applied Sciences by : Wade H. Shafer

Download or read book Masters Theses in the Pure and Applied Sciences written by Wade H. Shafer and published by Springer Science & Business Media. This book was released on 2012-12-06 with total page 341 pages. Available in PDF, EPUB and Kindle. Book excerpt: Masters Theses in the Pure and Applied Sciences was first conceived, published, and disseminated by the Center for Information and Numerical Data Analysis and Synthesis (CINDAS)* at Purdue University in 1957, starting its coverage of theses with the academic year 1955. Beginning with Volume 13, the printing and dis semination phases of the activity were transferred to University Microfilms/Xerox of Ann Arbor, Michigan, with the thought that such an arrangement would be more beneficial to the academic and general scientific and technical community. After five years of this jOint undertaking we had concluded that it was in the interest of all concerned if the printing and distribution of the volumes were handled by an international publishing house to assure improved service and broader dissemination. Hence, starting with Volume 18, Masters Theses in the Pure and Applied Sciences has been disseminated on a worldwide basis by Plenum Publishing Corporation of New York, and in the same year the coverage was broadened to include Canadian universities. All back issues can also be ordered from Plenum. We have reported in Volume 40 (thesis year 1995) a total of 10,746 thesis titles from 19 Canadian and 144 United States universities. We are sure that this broader base for these titles reported will greatly enhance the value of this impor tant annual reference work. While Volume 40 reports theses submitted in 1995, on occasion, certain uni versities do report theses submitted in previous years but not reported at the time.

Recent Progress in Surface Electromagnetic Modes

Author : Lin Chen
Publisher : Frontiers Media SA
ISBN 13 : 288966984X
Total Pages : 136 pages
Book Rating : 4.8/5 (896 download)

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Book Synopsis Recent Progress in Surface Electromagnetic Modes by : Lin Chen

Download or read book Recent Progress in Surface Electromagnetic Modes written by Lin Chen and published by Frontiers Media SA. This book was released on 2021-07-08 with total page 136 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Nanoengineering: Fabrication, Properties, Optics, and Devices

Author :
Publisher :
ISBN 13 :
Total Pages : 396 pages
Book Rating : 4.3/5 (91 download)

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Book Synopsis Nanoengineering: Fabrication, Properties, Optics, and Devices by :

Download or read book Nanoengineering: Fabrication, Properties, Optics, and Devices written by and published by . This book was released on 2005 with total page 396 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Nonlinear Photonics Devices

Author : Luigi Sirleto
Publisher : MDPI
ISBN 13 : 3039437216
Total Pages : 212 pages
Book Rating : 4.0/5 (394 download)

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Book Synopsis Nonlinear Photonics Devices by : Luigi Sirleto

Download or read book Nonlinear Photonics Devices written by Luigi Sirleto and published by MDPI. This book was released on 2021-01-11 with total page 212 pages. Available in PDF, EPUB and Kindle. Book excerpt: The first nonlinear optical effect was observed in the 19th century by John Kerr. Nonlinear optics, however, started to grow up only after the invention of the laser, when intense light sources became easily available. The seminal studies by Peter Franken and Nicolaas Bloembergen, in the 1960s, paved the way for the development of today’s nonlinear photonics, the field of research that encompasses all the studies, designs, and implementations of nonlinear optical devices that can be used for the generation, communication, and processing of information. This field has attracted significant attention, partly due to the great potential of exploiting the optical nonlinearities of new or advanced materials to induce new phenomena and achieve new functions. According to Clarivate Web of Science, almost 200,000 papers were published that refer to the topic “nonlinear optic*”. Over 36,000 papers were published in the last four years (2015–2018) with the same keyword, and over 17,000 used the keyword “nonlinear photonic*”. The present Special Issue of Micromachines aims at reviewing the current state of the art and presenting perspectives of further development. Fundamental and applicative aspects are considered, with special attention paid to hot topics that may lead to technological and scientific breakthroughs.

Principles, Design, Fabrication, and Characterization of Subwavelength Periodic Resonant Metasurfaces

Author : Hafez Hemmati
Publisher :
ISBN 13 :
Total Pages : 147 pages
Book Rating : 4.:/5 (132 download)

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Book Synopsis Principles, Design, Fabrication, and Characterization of Subwavelength Periodic Resonant Metasurfaces by : Hafez Hemmati

Download or read book Principles, Design, Fabrication, and Characterization of Subwavelength Periodic Resonant Metasurfaces written by Hafez Hemmati and published by . This book was released on 2021 with total page 147 pages. Available in PDF, EPUB and Kindle. Book excerpt: Since the emergence of diffraction gratings containing periodic unit cells, innumerable advances in theoretical studies and practical applications have emerged. Recently, these classic structures have been categorized as subsets of "meta-surfaces" or "meta-materials" in which periodically aligned wavelength-scale features manipulate all key properties of the electromagnetic waves in a desired manner for a wide variety of applications. This includes manipulating of amplitude, phase, spectral distribution, polarization state, and local mode structure of light in the various available spectral expressions. Among the significant characteristic properties of metasurfaces is the coupling of incident light to laterally propagating leaky Bloch modes in the subwavelength regime when the periodicity of the unit cell is moderately smaller than the free-space wavelength. This property, which manifests itself as a resonance at certain wavelengths, is called "guided mode resonance (GMR)" or "leaky mode resonance (LMR)". These structures offer novel properties and functionalities in ultra-thin device dimensions which make them potential replacements for conventional and bulky optical devices. Extensive studies have been conducted to realize the periodic structures in different materials (metals, dielectric, and semiconductors or their hybrid compositions) employing various fabrication methods for different wavelength ranges in 1D or 2D configuration. Thus, on account of the wide variety of material compositions and lattice architectures, the design space is vast. Various numerical techniques such as rigorous coupled-wave analysis (RCWA), finite element method (FEM), and finite-difference time-domain (FDTD) can be used to implement simulations and obtain the precise optical responses of the metasurfaces. In addition, inverse optimization methods, efficiently provide optimized physical parameters in order to obtain a particular desired spectral response. However, these computational methods which are based on solving heavy and complicated equations and do not always provide comprehensive insight into underlying physics of the numerically obtained optical spectra.In this dissertation, we present a comprehensive physical description of resonant metasurfaces based on exact solutions of the Rytov formulation. We define a clear transition wavelength between the resonance subwavelength region and the deep-subwavelength region. This transition point, analytical in a special case, is not available presently in the literature. In addition, we design, fabricate, and characterize various novel GMR-based optical devices such as metamaterial polarizers, nanoimprinted nanocomposite filters, multipart unit-cell metasurfaces, ultrahigh-Q resonant dual-grating metamembranes, and fiber-facet integrated optical filters and sensors.

Guided-mode Resonance Devices

Author : Wenhua Wu
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (875 download)

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Book Synopsis Guided-mode Resonance Devices by : Wenhua Wu

Download or read book Guided-mode Resonance Devices written by Wenhua Wu and published by . This book was released on 2014 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: In this thesis, a series of guided-mode resonance (GMR) devices are developed and optimized in the optical spectral region. Some of these devices are designed by inverse algorithms such as genetic algorithm and particle swarm optimization. One-dimensional subwavelength silicon and germanium gratings providing high omnidirectional reflectivity within specific band are designed respectively for TE and TM polarization. A simple amorphous silicon waveguide grating is proposed to enhance the absorbance for solar cells by 60 percent comparing with unpatterned structure. Another presented grating absorbs light nearly totally in the [tilde] 0.3-0.6 [micrometer] wavelength band for all incidence angles independent of polarization, namely wideband omnidirectional absorber. GMR photonic sensors are also discussed and demonstrated mainly on a post analysis method that can improve the testing accuracy. It is a back-fitting model that helps to differentiate the biochemical target from outside environmental disturbers. In addition, GMR filter showing extremely narrow linewidth [tilde]10 pm is also presented.

Rigorous Analysis of Wave Guiding and Diffractive Integrated Optical Structures

$Download Rigorous Analysis of Wave Guiding and Diffractive Integrated Optical Structures PDF Online Free$

Author : Andrew Bernard Greenwell
Publisher :
ISBN 13 :
Total Pages : 246 pages
Book Rating : 4.:/5 (823 download)

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Book Synopsis Rigorous Analysis of Wave Guiding and Diffractive Integrated Optical Structures by : Andrew Bernard Greenwell

Download or read book Rigorous Analysis of Wave Guiding and Diffractive Integrated Optical Structures written by Andrew Bernard Greenwell and published by . This book was released on 2007 with total page 246 pages. Available in PDF, EPUB and Kindle. Book excerpt: The realization of wavelength scale and sub-wavelength scale fabrication of integrated optical devices has led to a concurrent need for computational design tools that can accurately model electromagnetic phenomena on these length scales. This dissertation describes the physical, analytical, numerical, and software developments utilized for practical implementation of two particular frequency domain design tools: the modal method for multilayer waveguides and one-dimensional lamellar gratings and the Rigorous Coupled Wave Analysis (RCWA) for 1D, 2D, and 3D periodic optical structures and integrated optical devices. These design tools, including some novel numerical and programming extensions developed during the course of this work, were then applied to investigate the design of a few unique integrated waveguide and grating structures and the associated physical phenomena exploited by those structures. The properties and design of a multilayer, multimode waveguide-grating, guided mode resonance (GMR) filter are investigated. The multilayer, multimode GMR filters studied consist of alternating high and low refractive index layers of various thicknesses with a binary grating etched into the top layer. The separation of spectral wavelength resonances supported by a multimode GMR structure with fixed grating parameters is shown to be controllable from coarse to fine through the use of tightly controlled, but realizable, choices for multiple layer thicknesses in a two material waveguide; effectively performing the simultaneous engineering of the wavelength dispersion for multiple waveguide grating modes. This idea of simultaneous dispersion band tailoring is then used to design a multilayer, multimode GMR filter that possesses broadened angular acceptance for multiple wavelengths incident at a single angle of incidence. The effect of a steady-state linear loss or gain on the wavelength response of a GMR filter is studied. A linear loss added to the primary guiding layer of a GMR filter is shown to produce enhanced resonant absorption of light by the GMR structure. Similarly, linear gain added to the guiding layer is shown to produce enhanced resonant reflection and transmission from a GMR structure with decreased spectral line width. A combination of 2D and 3D modeling is utilized to investigate the properties of an embedded waveguide grating structure used in filtering/reflecting an incident guided mode. For the embedded waveguide grating, 2D modeling suggests the possibility of using low index periodic inclusions to create an embedded grating resonant filter, but the results of 3D RCWA modeling suggest that transverse low index periodic inclusions produce a resonant lossy cavity as opposed to a resonant reflecting mirror. A novel concept for an all-dielectric unidirectional dual grating output coupler is proposed and rigorously analyzed. A multilayer, single-mode, high and graded-index, slab waveguide is placed atop a slightly lower index substrate. The properties of the individual gratings etched into the waveguide's cover/air and substrate/air interfaces are then chosen such that no propagating diffracted orders are present in the device superstrate and only a single order is present outside the structure in the substrate. The concept produces a robust output coupler that requires neither phase-matching of the two gratings nor any resonances in the structure, and is very tolerant to potential errors in fabrication. Up to 96% coupling efficiency from the substrate-side grating is obtained over a wide range of grating properties.

Theory and Applications of Absorbing Guided-mode Resonant Devices in Sensing, Communications, and Display

Author : Alexander Leighton Fannin
Publisher :
ISBN 13 :
Total Pages : 115 pages
Book Rating : 4.:/5 (12 download)

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Book Synopsis Theory and Applications of Absorbing Guided-mode Resonant Devices in Sensing, Communications, and Display by : Alexander Leighton Fannin

Download or read book Theory and Applications of Absorbing Guided-mode Resonant Devices in Sensing, Communications, and Display written by Alexander Leighton Fannin and published by . This book was released on 2017 with total page 115 pages. Available in PDF, EPUB and Kindle. Book excerpt: Guided-mode resonant (GMR) technology is incorporated into lossy dielectric materials to assist in the absorption of incident light for various applications. Varying topologies and methodologies are explored. A series of devices taking advantage of narrow band, coherent interferometry is found to work as a serviceable coherent perfect absorber (CPA) whereby the total transmittance through the device is tunable based upon the relative phase of two or more beams. The differing beams are shown to be exciting the same mode in the device enabling the interferometric function. A similar, active topology for use in electronically interrogable interfacing is explored. Multiple hybrid metal-dielectric topologies are explored combining function from GMR, plasmonics, and Rayleigh anomaly to create various filters, sensors, and displays. Among these, a low index sensor topology is found to be operable between the cover and substrate Rayleigh wavelengths. Wideband absorptive properties utilizing GMR and 2D expansion are investigated. It is found that 1D, wideband, polarization sensitive devices can be straightforwardly extrapolated into 2D-patterned polarization insensitive ones. Ultra-sparse absorptive gratings enabled by a form of vertical coupling and assisted via GMR are shown to have polarizing attributes with extinction ratios theoretically in excess of 108 :1 with low reflection. Lastly, basic absorbing GMR design principles are extrapolated into the Mid IR illustrating comparable performance, in theory, to dielectric absorbers enhanced by plasmonic effects.