Download or read book Fabrication of Three dimensional Photonic Crystals Via Direct Laser Writing in an All inorganic Photoresist microform written by Sean Hang Edmond Wong and published by Library and Archives Canada = Bibliothèque et Archives Canada. This book was released on 2005 with total page 256 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Fabrication of Three dimensional Photonic Crystals Via Direct Laser Writing in an All inorganic Photoresist written by Sean Hang Edmond Wong and published by . This book was released on 2005 with total page 256 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Three dimensional Photonic Crystals Via Direct Laser Writing written by Markus Deubel and published by . This book was released on 2006 with total page 168 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Photonic Crystals written by Kurt Busch and published by John Wiley & Sons. This book was released on 2006-05-12 with total page 380 pages. Available in PDF, EPUB and Kindle. Book excerpt: The majority of the contributions in this topically edited book stems from the priority program SPP 1113 "Photonische Kristalle" run by the Deutsche Forschungsgemeinschaft (DFG), resulting in a survey of the current state of photonic crystal research in Germany. The first part of the book describes methods for the theoretical analysis of their optical properties as well as the results. The main part is dedicated to the fabrication, characterization and modeling of two- and three-dimensional photonic crystals, while the final section presents a wide spectrum of applications: gas sensors, micro-lasers, and photonic crystal fibers. Illustrated in full color, this book is not only of interest to advanced students and researchers in physics, electrical engineering, and material science, but also to company R&D departments involved in photonic crystal-related technological developments.

Download or read book Fabrication and Characterization of Three Dimensional Photonic Crystals Generated by Multibeam Interference Lithography written by Ying-Chieh Chen and published by . This book was released on 2009 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Multibeam interference lithography is investigated as a manufacturing technique for three-dimensional photonic crystal templates. In this research, optimization of the optical setup and the photoresist initiation system leads to a significant improvement of the optical quality of the crystal, as characterized by normal incidence optical spectroscopy. Theoretical spectra are calculated and demonstrate close agreement with experimental values, indicating that this fabrication process achieves excellent optical quality. X-ray microscopy provides non-destructive inspection of the fabricated crystals at nano-scale resolution. A reconstructed crystal model is generated by computed tomography which allows for comparison to a predicted structure's geometry and optical spectra. Using the polymer crystal as a template, electrodeposition is performed to completely infiltrate the crystal with Cu2O. After polymer removal the inverted Cu2O crystal exhibits a high peak reflectance at the predicted wavelength, indicating the structure is an exact inverse of the template. A conformal growth algorithm is developed for the commonly used chemical vapor deposition infiltration technique to explain growth results and verified experimentally with atomic layer deposition of oxide materials. Finally, a customized chemically amplified positive photoresist system and its processing steps are developed as a route to zero-shrinkage template material for high fidelity patterning of the designed interference patterns.

Download or read book Three dimensional Micron scale Metal Photonic Crystals Via Multi photon Direct Laser Writing and Electroless Metal Deposition written by Amir Tal and published by . This book was released on 2007 with total page 93 pages. Available in PDF, EPUB and Kindle. Book excerpt: Three-dimensional (3D) metal photonic crystals (MPCs) can exhibit interesting electromagnetic properties such as ultra-wide photonic or "plasmonic" band gaps, selectively tailored thermal emission, extrinsically modified absorption, and negative refractive index. Yet, optical-wavelength 3D MPCs remain relatively unexplored due to the challenges posed by their fabrication. This work explores the use of multi-photon direct laser writing (DLW) coupled with electroless metallization as a means for preparing MPCs. Multi-photon DLW was used to prepare polymeric photonic crystal (PC) templates having a targeted micron-scale structure and form. MPCs were then created by metallizing the polymeric PCs via wet-chemical electroless deposition. The electromagnetic properties of the polymeric PCs and the metallized structures were characterized using Fourier transform infrared spectroscopy. It is shown that metallization transforms the optical properties of the structures from those of conventional 3D dielectric PCs to those consistent with 3D MPCs that exhibit ultra-wide photonic band gaps. These data demonstrate that multi-photon DLW followed by electroless deposition provides a viable and highly flexible route to MPCs, opening a new path to metal photonic materials and devices.

Download or read book Fabrication and Characterization of Three Dimensional Photonic Crystals Generated by Multibeam Interference Lithography written by Ying-Chieh Chen and published by . This book was released on 2009 with total page 290 pages. Available in PDF, EPUB and Kindle. Book excerpt: Multibeam interference lithography is investigated as a manufacturing technique for three-dimensional photonic crystal templates. In this research, optimization of the optical setup and the photoresist initiation system leads to a significant improvement of the optical quality of the crystal, as characterized by normal incidence optical spectroscopy. Theoretical spectra are calculated and demonstrate close agreement with experimental values, indicating that this fabrication process achieves excellent optical quality. X-ray microscopy provides non-destructive inspection of the fabricated crystals at nano-scale resolution. A reconstructed crystal model is generated by computed tomography which allows for comparison to a predicted structure's geometry and optical spectra. Using the polymer crystal as a template, electrodeposition is performed to completely infiltrate the crystal with Cu2O. After polymer removal the inverted Cu2O crystal exhibits a high peak reflectance at the predicted wavelength, indicating the structure is an exact inverse of the template. A conformal growth algorithm is developed for the commonly used chemical vapor deposition infiltration technique to explain growth results and verified experimentally with atomic layer deposition of oxide materials. Finally, a customized chemically amplified positive photoresist system and its processing steps are developed as a route to zero-shrinkage template material for high fidelity patterning of the designed interference patterns.

Download or read book Fabrication of Photonic Structures by Two photon Polymerization written by Jesper Juul Serbin and published by Cuvillier Verlag. This book was released on 2004 with total page 111 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Photonic Crystals written by Qihuang Gong and published by CRC Press. This book was released on 2014-02-06 with total page 368 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book provides a broad overview of photonic crystals and, as the title suggests, covers their principles and applications. It is written from a physics point of view with an emphasis on materials science. Equations are well explained and often completely avoided to increase the readability of the book. The book is divided into eight chapters, starting with a brief introduction. The second chapter deals with different dimensionalities of the photonic crystals and their properties. The third chapter is very interestingly written and provides a survey of the various synthesis methods used for production of photonic crystals, including chemical routes, lithography, and self-assembly of colloidal photonic crystals. Chapters 4–8 constitute the bulk of the book and provide examples of applications of these photonic crystals. Chapter 4 offers a good explanation of optical switching. Bandgap and defect mode switching are also brought into focus along with many other mechanisms—14 different switching mechanisms in all, including thermal, electro, and magneto switching. Frequency tuning of photonic crystal filters with special attention to nanosize photonic crystals is illustrated, providing a direct perspective on applications of these materials in integrated photonic circuits. The transition from chapter 5 to 6 dealing with photonic crystal lasers is smooth, especially after a clear description of frequency tuning. Here, one- to three-dimensional photonic lasers are explained along with laser oscillations produced by a variety of microcavity methods. Metallodielectric and liquid-crystal photonic lasers are equally well illustrated. Chapter 7 introduces logic devices based on photonic crystals. This chapter clearly explains, with the help of simple illustrations, how to obtain AND, OR, and XOR logic gates. Chapter 8 concludes the book by presenting possible applications, including gas, chemical, fluid, and cell sensing; their workings are very well described from a fundamental point of view. The diagrams and illustrations are appropriate and eye catching. There are ample references; thus readers are able to find more detailed information to satisfy their curiosity if the book does not suffice. Even though the introduction provides basics of these photonic crystals, I do get the impression that the bigger picture is missing. A nonexpert may not understand the direct application of such materials right from the beginning of the book. A flowchart or a diagram of these photonic crystals, illustrating applications in daily life at the beginning of the book, could attract a broader readership. In this regard, I believe that this book is most adapted to physicists with a materials science background or vice versa. However, one should take into consideration that the principles of photonic crystals cannot be explained without physics, and therefore the quality of this book remains intact and could very well serve as a textbook for future physicists.

Download or read book Three dimensional Photonic Crystal Optoelectronics written by Erik C. Nelson and published by . This book was released on 2011 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Photonic crystals are a class of synthetic materials which can control the absorption, emission and propagation of light to an unprecedented degree. In order to fully utilize their properties defect must be added to photonic crystals to direct the flow of light, and light emitting structures must be incorporated that have the ability to be electrically pumped. In pursuit of these goals, the coupling of photons into 3D photonic crystals was studied for template-based fabrication methods. A complete lack of coupling was demonstrated for frequencies within and around the photonic band gap due to a surface resonance. The cause of this behavior was studied using experiment and finite-difference time-domain calculations, and a solution developed. The incorporation of defects was studied next and advanced to allow for simultaneous imaging and defect writing using a fluorescent dye and two-photon sensitive photoinitiator. Complete spatial alignment of defects with respect to photonic crystal lattice was achieved using this method. While fabrication techniques such as phase mask lithography may be used to create a large variety of 3D structures, they are typically formed in SU-8 photoresist which cannot survive high temperature processes such as chemical vapor deposition. In order to make these structures accessible for future photonic crystal research a technique was developed to impart thermal stability to polymer templates using ceramic coatings deposited by atomic layer deposition and subsequent high-temperature growth of silicon was performed on the templates. Finally, a method was developed to create 3D photonic crystals from III-V semiconductors using a template based approach and metal-organic vapor phase epitaxy. The result of this work was the fabrication of 3D photonic crystals from high-quality GaAs and the demonstration of the first electrically driven 3D photonic crystal LED.

Download or read book Fabrication of Two dimensional and Three dimensional Photonic Crystal Devices for Applications in Chip scale Optical Interconnects written by and published by . This book was released on 2006 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: To date, the realization of chip-scale optical interconnects has been inhibited by the lack of a device technology that can provide optical functionality at a scale commensurate with integrated circuits. To overcome this limitation, I propose the realization of an "optical superhighway" as an alternative interconnect paradigm for next-generation integrated circuits using semiconductor-based photonic-crystal (PhC) devices. PhCs have the potential to be the elementary building blocks of the next generation of opto-electronic devices and integrated circuits. This potential has invigorated global research interest in hybrid optical-electrical interconnects at the chip scale. In this thesis, I will present the development of such Nano-Photonic Crystal (PhC) interconnects using conventional CMOS fabrication technology, thereby enabling photonic functionality on the VLSI scale. Accordingly, I will discuss the fabrication of high fill-factor planar PhC devices on silicon-on-insulator substrates, using both capacitively coupled and inductively coupled plasma etching. Functional, sub-100-nm, high-aspect-ratio PhC devices will be presented, along with the technical challenges encountered in their realization. Also, a robust etch-process toolbox has been developed that, in addition to realizing chip-scale optical interconnects, also paves the way for applications in other technology niches like MEMS, terahertz devices, nanophotonics and microfluidics, to be realized in a single silicon platform, thus enabling systems-on-a-chip. In-plane optical routing in ultra-thin silicon-on-sapphire is also explored as part of this investigation. In addition, I will discuss the development of a sub-surface silicon optical bus (S3B), a buried silicon optical interconnect technology. The approach relies on engineering the dispersion properties of three-dimensional (3D) photonic crystals embedded in silicon to control light propagation. In particular, a novel method of fabricating buried 3D photonic-crystal structures using conventional planar silicon micromachining will be presented. This method utilizes a single planar etch mask and time-multiplexed etch process along with sidewall oxidation to create an array of spherical voids with three-dimensional symmetry. Preliminary results will be presented to support the feasibility of realizing chip-scale optical interconnects using the proposed approach. The results of this research will not only help realize a new generation of optical integrated circuits, but also provide a solution to the global interconnect delay anticipated in next-generation of high-end integrated circuits. These PhC devices could very well provide the building blocks for the integrated circuits of the future.

Download or read book Fabrication of Novel Three Dimensional Photonic Crystals Using Multi Beam Interference Lithography written by Vinayak Ramanan and published by . This book was released on 2009 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Fabrication and Chemical Modifications of Photonic Crystals Produced by Multiphoton Lithography written by Vincent W. Chen and published by . This book was released on 2011 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: This thesis is concerned with the fabrication methodology of polymeric photonic crystals operating in the visible to near infrared regions and the correlation between the chemical deposition morphologies and the resultant photonic stopband enhancements of photonic crystals. Multiphoton lithography (MPL) is a powerful approach to the fabrication of polymeric 3D micro- and nano-structures with a typical minimum feature size ~ 200 nm. The completely free-form 3D fabrication capability of MPL is very well suited to the formation of tailored photonic crystals (PCs), including structures containing well defined defects. Such structures are of considerable current interest as micro-optical devices for their filtering, stop-band, dispersion, resonator, or waveguiding properties. More specifically, the stop-band characteristics of polymer PCs can be finely controlled via nanoscale changes in rod spacings and the chemical functionalities at the polymer surface can be readily utilized to impart new optical properties. Nanoscale features as small as 65 ± 5 nm have been formed reproducibly by using 520 nm femtosecond pulsed excitation of a 4,4'-bis(di-n-butylamino)biphenyl chromophore to initiate crosslinking in a triacrylate blend. Dosimetry studies of the photoinduced polymerization were performed on chromophores with sizable two-photon absorption cross-sections at 520 and 730 nm. These studies show that sub-diffraction limited line widths are obtained in both cases with the lines written at 520 nm being smaller. Three-dimensional multiphoton lithography at 520 nm has been used to fabricate polymeric woodpile photonic crystal structures that show stop bands in the visible to near-infrared spectral region. 85 ± 4 nm features were formed using swollen gel photoresist by 730 nm excitation MPL. An index matching oil was used to induce chemical swelling of gel resists prior to MPL fabrication. When swollen matrices were subjected to multiphoton excitation, a similar excitation volume is achieved as in normal unswollen resins. However, upon deswelling of the photoresist following development a substantial reduction in feature size was obtained. PCs with high structural fidelity across 100 æm x 100 æm x 32 layers exhibited strong reflectivity (>60% compared to a gold mirror) in the near infrared region. The positions of the stop-bands were tuned by varying the swelling time, the exposure power (which modifies the feature sizes), and the layer spacing between rods. Silver coatings have been applied to PCs with a range of coverage densities and thicknesses using electroless deposition. Sparse coatings resulted in enhanced reflectivity for the stop band located at ~5 æm, suggesting improved interface reflectivity inside the photonic crystal due to the Ag coating. Thick coatings resulted in plasmonic bandgap behavior with broadband reflectivity enhancement and PC lattice related bandedge at 1.75 æm. Conformal titania coatings were grown onto the PCs via a surface sol-gel method. Uniform and smooth titania coatings were achieved, resulting in systematically red-shifted stopbands from their initial positions with increasing thicknesses, corresponding to the increased effective refractive index of the PC. High quality titania shell structures with modest stopbands were obtained after polymer removal. Gold replica structures were obtained by electroless deposition on the silica cell walls of naturally occurring diatoms and the subsequent silica removal. The micron-scaled periodic hole lattice originated from the diatom resulted in surface plasmon interferences when excited by infrared frequencies. The hole patterns were characterized and compared with hexagonal hole arrays fabricated by focused ion beam etching of similarly gold plated substrate. Modeling of the hole arrays concluded that while diatom replicas lack long-ranged periodicity, the local hole to hole spacings were sufficient to generate enhanced transmission of 13% at 4.2 æm. The work presented herein is a step towards the development of PCs with new optical and chemical functionalities. The ability to rapidly prototype polymeric PCs of various lattice parameters using MPL combined with facile coating chemistries to create structures with the desired optical properties offers a powerful means to produce tailored high performance photonic crystal devices.

Download or read book Fabrication of Two and Three Dimensional Photonic Crystals and Photonic Quasi Crystals by Interference Technique written by Ngoc Diep Lai and published by . This book was released on 2011 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Fabrication of Two- and Three-Dimensional Photonic Crystals and Photonic Quasi-Crystals by Interference Technique.

Download or read book Photonic Crystals written by Kuon Inoue and published by Springer Science & Business Media. This book was released on 2004-07-20 with total page 344 pages. Available in PDF, EPUB and Kindle. Book excerpt: Photonic crystals are a very hot topic in photonics. The basics, fabrication, application and new theoretical developments in the field of photonic crystals are presented in a comprehensive way, together with a survey of the advanced state-of-the-art report.

Download or read book Photonic Crystals written by Kuon Inoue and published by Springer. This book was released on 2013-11-11 with total page 329 pages. Available in PDF, EPUB and Kindle. Book excerpt: Photonic crystals are a very hot topic in photonics. The basics, fabrication, application and new theoretical developments in the field of photonic crystals are presented in a comprehensive way, together with a survey of the advanced state-of-the-art report.

Download or read book Photonic Crystals written by Jean-Michel Lourtioz and published by Springer Science & Business Media. This book was released on 2008-03-19 with total page 514 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book provides the theoretical background required for modelling photonic crystals and their optical properties, while presenting the large variety of devices where photonic crystals have found application. As such, it aims at building bridges between optics, electromagnetism and solid state physics. This second edition includes the most recent developments of two-dimensional photonic crystal devices, as well as some of the last results reported on metamaterials.