Ultrafast nonlinear optics of wide-gap II-VI quantum wells and polymeric materials

Bakarezos, Efthimios

January 2000

No description available.

530.41

Silicon-Integrated Two-Dimensional Phononic Band Gap Quasi-Crystal Architecture

Norris, Ryan Christopher

January 2011

The development and fabrication of silicon-based phononic band gap crystals has been gaining interest since phononic band gap crystals have implications in fundamental science and display the potential for application in engineering by providing a relatively new platform for the realization of sensors and signal processing elements. The seminal study of phononic band gap phenomenon for classical elastic wave localization in structures with periodicity in two- or three-physical dimensions occurred in the early 1990’s. Micro-integration of silicon devices that leverage this phenomenon followed from the mid-2000’s until the present. The reported micro-integration relies on exotic piezoelectric transduction, phononic band gap crystals that are etched into semi-infinite or finite-thickness slabs which support surface or slab waves, phononic band gap crystals of numerous lattice constants in dimension and phononic band gap crystal truncation by homogeneous mediums or piezoelectric transducers. The thesis reports, to the best of the author's knowledge, for the first time, the theory, design methodology and experiment of an electrostatically actuated silicon-plate phononic band gap quasi-crystal architecture, which may serve as a platform for the development of a new generation of silicon-integrated sensors, signal processing elements and improved mechanical systems. Electrostatic actuation mitigates the utilization of piezoelectric transducers and provides action at a distance type forces so that the phononic band gap quasi-crystal edges may be free standing for potentially reduced anchor and substrate mode loss and improved energy confinement compared with traditional surface and slab wave phononic band gap crystals. The proposed phononic band gap quasi-crystal architecture is physically scaled for fabrication as MEMS in a silicon-on-insulator process. Reasonable experimental verification of the model of the electrostatically actuated phononic band gap quasi-crystal architecture is obtained through extensive dynamic harmonic analysis and mode shape topography measurements utilizing optical non-destructive laser-Doppler velocimetry. We have utilized our devices to obtain fundamental information regarding novel transduction mechanisms and behavioral characteristics of the phononic band gap quasi-crystal architecture. Applicability of the phononic band gap quasi-crystal architecture to physical temperature sensors is demonstrated experimentally. Vibration stabilized resonators are demonstrated numerically.

Phononic Band Gap Crystals

Micro Electro Mechanical Systems

MEMS

Coupled mass resonators

Electrical and Computer Engineering

Acoustical Analysis Of A Multipurpose Hall By Computer Simulation Method: Metu Northern Cyprus Campus Auditorium (ncca) As A Case Study

Yilmaz, Tansu

01 January 2005

In this study, impulse response of a multipurpose hall, namely METU Northern Cyprus Campus Auditorium (NCCA) is analyzed and the acoustical quality of the auditorium is evaluated. Suggestions to increase the acoustical satisfaction has been made and to overcome the probability of bass-rise caused by the noise of HVAC systems, a proposal has been made to control low frequency sounds by introducing the volume resonators for the specified frequency. For the study, Odeon, which is used effectively in computer based acoustical simulation studies, is used for the analysis part. In the analysis, a 3D drawing of the hall has been produced by the help of the exact dimensions derived from the original submission of the project by the permission of the authorities.

NA Architecture 1-9428

Design and characterization of silicon micromechanical resonators

Ho, Gavin Kar-Fai

07 July 2008

The need for miniaturized frequency-selective components in electronic systems is clear. The questions are whether and how micro-electro-mechanical systems (MEMS) can satisfy the need. This dissertation aims to address these questions from a scientific perspective. Silicon is the focus of this work, as it can benefit from scaling of the semiconductor industry. Silicon also offers many technical advantages. The characteristics of silicon resonators from 32 kHz to 1 GHz are described. The temperature stability and phase noise of a 6-MHz temperature-compensated oscillator and a 100-MHz temperature-controlled oscillator are reported. Silicon resonator design and characterization, with a focus on quality factor, linearity, and the electrical equivalent circuit, are included. Electrical tuning, electromechanical coupling, finite element modeling, and unexpected findings of these resonators are also described. A manufacturability technique employing batch process compensation is demonstrated. Results indicate that silicon is an excellent material for micromechanical resonators. The aim of this research is to explore the fundamental limitations, provide a foundation for future work, and also paint a clearer picture on how micromechanical resonators can complement alternative technologies.

Micromechanical oscillator

Silicon resonator

Single crystal silicon

Microresonator

MEMS

Microelectromechanical systems

Resonators

Silicon

The design of a coupled co-axial resonator filter for low earth orbit satellites working at microwave frequencies

Sam, Lwazi

12 1900

Thesis (MScEng)--University of Stellenbosch, 2002. / ENGLISH ABSTRACT: Keywords: Coupled resonator filters, Co-axial line resonators, Basic Coupling Design, Co-axial resonator filter The study of the basic dynamics of filters, with the emphasis on coupled resonator filters, is presented. Special attention is paid to the synthesis of doubly terminated coupling matrices using the Darlington method. Due to restrictions placed on the filter by the equivalent circuit used, a coupling matrix reduction is applied to the resulting coupling matrix. An investigation is performed on A/2 co-axial line resonators, with the emphasis on rectangular co-axial line resonators with a round center conductor. The basic definition of the coupling coefficient is revisited and it is calculated using the method based on Bethe's theory and Cohn's experimental work. A 4th-order co-axial resonator filter operating at 3 GHz is designed using the theory outlined in this thesis. The measured response is in good agreement with the theory in terms of the center frequency, but disagree in terms of the coupling coefficient, bandwidth and Q-factor. The reasons for this, as well as suggestions for improving the accuracy of the parameters mentioned, are given. / AFRIKAANSE OPSOMMING: Sleutelwoorde: Gekoppelde resoneerder filters, Ko-aksiale lyn resoneerders, Basiese Koppeling Ontwerp, Ko-aksiale resoneerder filter Die studie van die basies dinamika van filters, met die klem op gekoppelde resoneerder filters, is voorgelê. Spesiale aandag is gegee aan die sintese van dubbelbelaste koppel matrikse met die gebruik van die Darlington metode. As gevolg van die beperkings wat op die filter geplaas word deur die gebruik van die ekwivalent stroombaan, word 'n koppel matriks vermindering gebruik. 'n Ondersoek is gedoen op A/2 ko-aksiale lyn resoneerders, met die klem op reghoekige ko-aksiale lyn resoneerders met 'n ronde binnegeleier. Die basiese definisie van die koppel koëffisiënt is hersien en dit is bereken met die gebruik van die metode wat baseer is op Bethe se teorie en Cohn se experimentele werk. 'n 4de-orde ko-aksiale resoneerder filter wat opereer by 3 GHz is ontwerp met die gebruik van die teorie wat in hierdie tesis gaskets word. Die gemete weergawe is in goeie ooreenkoms met die teorie in terme van die senter frekwensie, maar verskil in terme van die koppel koëffisiënt, bandwydte en Q-faktor. Die rede hiervoor, as ook voorstelle vir die verbetering van die akkuraatheid van die parameters wat genoem is, IS gegee.

Microwave filters

Dissertations -- Electronic engineering

Coupled-resonator filters

Coaxial resonators

Theses -- Electronic engineering

A numerical investigation of the effects of laser heating on resonance measurements of nanocantilevers

Kutturu, Padmini

08 January 2019

Nanomechanical resonators (NR) are cantilevers or doubly clamped nanowires (NW) which vibrate at their resonance frequency. These nanowires with picogram-level mass and frequencies of the order of MHz can resolve added mass in the attogram (10-18 g) range, enabling detection of a few molecules of cancer biomarkers based on the shift in resonance frequency. Such biomarker detection can help in the early stage detection of cancer and also aid in monitoring the treatment procedure in a more advanced stage. Optical transduction is one of the methods to measure the resonance frequency of the cantilever. However, there is a dependence of measured resonance frequency on the polarization of light and the laser power coupled as thermal energy into the cantilever during the measurement. This thesis presents a numerical model of the nanocantilever and shows the variation in resonance frequency and amplitude due to varied amounts of energy absorption by the NW from the laser during resonance measurements. This thesis answers questions on the effects of laser heating by calculating the temperature distribution in the NW, which changes the Young’s modulus and stiffness, causing a resonance downshift. It also shows the variation of resonance amplitude, affecting signal strength in measurements, by considering the effects of structural damping. In this work, a numerical model of the nanowire was analyzed to determine the temperature rise of the NW due to laser heating. The maximum temperature was calculated to be about 500 K with 1 mW of laser power absorbed in Silicon NWs and it is shown that the nanowire tip would reach its melting point for about 2.6 mW of laser power absorbed by it. The resonance shift due to attained temperature of the NW was calculated. The frequency is predicted to decrease by 24 kHz for a 11.6 MHz resonator, when 2mW of laser power is absorbed. However, the frequency shift is mode-dependent and is larger for higher modes. The variation in vibration amplitude around the resonance peaks is calculated based on the effects of structural damping. This can be used to decide on the suspension height of the NW above the substrate, before fabrication. This calculation also provides a method to study the variation in material damping due to temperature. Finally, a semi-analytical method for calculating the frequency of a cantilever beam with varying Young’s modulus is derived to examine the validity of the results calculated above. An effective Young’s modulus value for the laser heated NW is given, which serves as a correction factor for the resonance shift. The derivation is then extended to calculate the resonance shift with an addition of a mass to the beam of varying Young’s modulus. / Graduate / 2019-12-13

Nanomechanical resonators (NR)

Doubly clamped nanowires (NW)

Cantilevers

Optical transduction

Temperature distribution

Young’s modulus

Structural and dielectric properties of V2O5 addition on Bi5Ti3FeO15 ceramic matrix / Estudo das propriedades dielÃtricas e estruturais do Bi5Ti3FeO15 adicionado de V2O5

Francisco Andrà Andrade de Aguiar

08 January 2016

O Bi5Ti3FeO15 foi sintetizado pelo mÃtodo de ReaÃÃo no Estado SÃlido (RES) e posteriormente adicionado de V2O5 (PentÃxido de VanÃdio) objetivando melhorar suas propriedades dielÃtricas. Para as anÃlises estruturais foram utilizadas as seguintes tÃcnicas: DifraÃÃo de Raios-X (DRX), Microscopia EletrÃnica de Varredura (MEV), Espectroscopia de DispersÃo de Energia de Raios-X (EDS), Espectroscopia Raman e Infravermelho (IV). Para o estudo das propriedades dielÃtricas do material em radiofrequÃncia e em microondas, foram empregadas, respectivamente, a Espectroscopia de ImpedÃncia (EI) e o mÃtodo de Hakki e Coleman. A tÃcnica de DRX foi utilizada para identificar a fase BFT pura, bem como as duas novas fases originadas a partir da adiÃÃo de V2O5: Bi4V1.5Fe0.5O10.5 e Bi2Ti2O7. As alteraÃÃes na morfologia dos grÃos e a resposta dielÃtrica foram atribuÃdas à presenÃa destas fases secundÃrias. Em radiofrequÃncia verificou-se que a adiÃÃo de V2O5 aumentou a permissividade dielÃtrica e reduziu os valores de tangente de perda, resultados semelhantes aos obtidos em microondas. Ressonadores DielÃtricos foram fabricados como um protÃtipo para antena monopolo. Os valores de frequÃncia de funcionamento da antena variaram entre 2,4 GHz e 3,1 GHz. Jà os valores de coeficiente de temperatura da frequÃncia ressonante (f) variaram de -330 a -192 ppm/ÂC. Assim sendo, a cerÃmica BFT adicionada de V2O5, pode ser utilizada em dispositivos de microondas, como telefones mÃveis, por exemplo. / The Bi5Ti3FeO15 (BFT) was synthesized by the solid state reaction method (SLR) and then added by V2O5 (vanadium pentoxide) to improve its dielectric properties. For the structural analyses the following technics were used: X-ray diffraction (XRD), scanning electron microscopy (SEM), energy-dispersive X-ray spectroscopy (EDS), Raman and infrared spectroscopy. For the dielectric propeties of the material at radiofrequency and microwave ranges, impedance spectroscopy (IS) and the Hakki-Coleman methods were used respectively. The XRD technique was used to identify the BFT phase as well as the two new ones (Bi4V1.5Fe0.5O10.5 and Bi2Ti2O7). Changes in the grain morphology and the dielectric response were assigned due to the presence of these secondary phases. The V2O5 addition increased the dielectric permittivity and reduced the loss tangent values at radiofrequency range; similar results were obtained at microwave. The Dielectric resonators (DR) were fabricated as a prototype for monopole antenna. The antenna operating frequency (2.4 - 3.1 GHz) and temperature coefficient of resonance frequency (τf) (from -330 to -192 ppm/ÂC) changed as a function of V2O5 concentration in the DR. Thus, BFT ceramics added by V2O5 are good candidates to be used for microwave devices as cell mobile phones, for example.

Propriedades DiÃletricas

Bi5Ti3FeO15

V2O5

Antenas Ressoadoras DiÃletricas.

Dielectric properties

Bi5Ti3FeO15

V2O5

Dielectric resonators antennas.

QUIMICA

Microlasers de cavidades estádio aplicados à detecção nanovolumétrica / Stadium cavities microlasers applied to the nanovolumetric detection

Silva Filho, Adenir da

15 August 2018

Orientador: Newton Cesário Frateschi / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Fisica Gleb Wataghin / Made available in DSpace on 2018-08-15T03:39:57Z (GMT). No. of bitstreams: 1 SilvaFilho_Adenirda_D.pdf: 7071967 bytes, checksum: 323c5d4f6939473d571146b5d6531fda (MD5) Previous issue date: 2010 / Resumo: Este trabalho apresenta o uso de cavidades ressonantes baseadas em geometrias de bilhares caóticos construídas em meios semicondutores opticamente ativos, visando seu aproveitamento ao sensoriamento. Apesar do comportamento clássico caótico do estádio, a descrição quântica, no limite semiclássico, mostra inesperados acúmulos de densidade de probabilidade sobre muitas trajetórias periódicas fechadas, chamadas cicatrizes. A literatura mostra que o espaço físico das trajetórias relacionadas a cada cicatriz pode ser obtido pela soma da densidade de probabilidade de auto-estados na vizinhança de cada cicatriz. Classicamente, as trajetórias ligadas a cada auto-estado possuem órbitas muito próximas devido a sua instabilidade, e quando misturadas, definem uma órbita de largura não nula. No domínio óptico, isomórfico ao problema quântico descrito acima, as trajetórias vêm de um tratamento de traçado de raios e os auto-estados são os modos eletromagnéticos estacionários. Particularmente, no caso da cavidade dielétrica, o sistema é aberto, uma vez que a luz pode ser transmitida para fora do ressonador. Desta forma, há grande mistura dos modos e uma seleção maior daqueles que podem sobreviver por terem trajetórias com ângulos internos de incidência maiores que o ângulo crítico para reflexão total interna. Em uma trajetória fechada e curta, modos estacionários são definidos e essas trajetórias têm maior probabilidade de serem observadas, em relação a outras possíveis. Quando o ressonador é constituído por um meio ativo opticamente, este confinamento realiza a realimentação óptica do sistema, cujo ganho óptico permite o estabelecimento estável e coerente de tais trajetórias. Estes resultados inspiraram a realização deste trabalho, cuja grande motivação foi investigar o processo de seleção modal e aplicá-lo em dispositivos práticos para sensoriamento em pequenos volumes. Experimentalmente foi desenvolvida uma técnica híbrida de fabricação utilizando um sistema de íons focalizados (FIB) juntamente com técnicas de microfabricação convencionais para a produção de cavidades estádio com meio ativo de poços quânticos de InGaAsP. Finalmente, foram obtidos resultados da emissão espectral com grande concordância com a previsão teórica baseada numa abordagem matemática simples de soma incoerente de cicatrizes. A seleção modal foi demonstrada com a alteração da excentricidade e com a inserção de furos sobre as trajetórias. A aplicação ao sensoriamento foi explorada tanto pela observação do espectro de emissão quanto pela detecção de fotocorrente por estádios emissor e detector integrados. Variações de até 80% de fotocorrente e alterações significativas do espectro foram observadas para detecção de isopropanol e água. Estes resultados mostram possibilidades de sensoriamento prático utilizando os estádios / Abstract: This work presents the development of resonant cavities based on chaotic billiard geometries built with semiconductor active optical medium for sensing applications. In spite of the classically chaotic behavior of the stadium, the quantum description of the problem in the semi-classical limit shows unexpected accumulations of the density of probability on closed periodic paths called scars. The literature shows that the physical space of the paths related to a given scar can be obtained by adding several eigen-states neighboring each scar. Classically, the paths connected to each eigen-state have very close orbits due to their instability which, when mixed, define a non-zero width orbit. In the optical domain, isomorphic to the quantum problem described above, the paths are a result of the ray treatment and the eigen-modes are the stationary electromagnetic modes. Particularly, in the case of a dielectric cavity, the system is open for light can escape the resonator. Therefore, there is a great mixture of modes and a strong selection of modes with paths with incidence angle below the critical angle. In a closed and short path, stationary modes are defined and those paths have larger probability of observation. When the resonator has an optically active medium, the confinement provides optical feedback to the system which with optical gain allows the establishment of coherent and stable scars. These results inspired this work where the process of modal selection was investigated and applied for sensing in small volumes. Experimentally, a hybrid fabrication approach based on Focused Ion Beam (FIB) and conventional micro-fabrication techniques was used to produce stadium optical cavities with InGaAsP quantum well active region. Finally, we obtained the spectral emission of the devices with good agreement with our simulation based on a simple mathematical approach employing the incoherent summation of the scars. The modal selection with the modification of the eccentricity of the cavity and with the insertion of holes along the scars was demonstrated. The application to sensing was explored by the observation of the emission spectrum as well as by measured photo-current on detection between stadia emitter and detector integrated. Photo-current variations of up to 80% and significant changes of the emission spectrum were observed for isopropanol and water detection. These results show possibilities of practical sensing by stadiums / Doutorado / Física / Doutor em Ciências

Ressonadores

Feixes de íons focalizados

Lasers semicondutores

Formato estádio

Resonators

Foused ion beam

Semiconductor lasers

Stadium-shaped

Desenvolvimento de um laser DPSSL polarizado com mais de 100 W de potência e parâmetro de qualidade próximo de um / Development of a polarized DPSSL laser with over 100 W of power with beam parameter near one

Allan Bereczki

18 April 2016

A operação dinamicamente estável com zonas conjuntas foi obtida para um ressonador laser contendo dois bastões de Nd:YAG com módulos laser comerciais. O ressonador não polarizado gerou 115 W de potência no modo transversal fundamental TEM00. Quando polarizado por lâmina de Brewster atingiu 100,5W de potência de saída com 91% de polarização. Quando o ressonador foi polarizado com um polarizador de filme fino, obteve-se melhora na qualidade de feixe e um aumento na polarização, com o valor de M2 sendo 1,56 e 1,84 nas direções x e y respectivamente com 95,4% de polarização. A potência de saída foi, ao nosso conhecimento, a mais alta obtida para lasers polarizados operando no modo fundamental e usando módulos lasers comerciais de Nd:YAG bombeados lateralmente por diodos sem nenhuma preparação especial. / Dynamically stable operation with joined stability zones of a linearly polarized resonator is shown for a laser containing two diode side-pumped Nd:YAG rods with commercial laser modules. The unpolarised resonator provided 115 W of TEM00 output. When polarized by a Brewster plate, it reached 100.5 W of output power with 91% polarization. When the resonator was polarized by a thin film polarizer, an increase in beam quality was obtained with M2 values of 1.56 and 1.84 in the x and y directions, respectively with 95.4% polarization. The output power achieved is, to our knowledge, the highest reported for polarized, fundamental-mode lasers using commercial, diode side-pumped Nd:YAG modules without any special preparation.

laser de estado sólido

Nd:YAG

ressonadores dinamicamente estáveis

dynamically stable resonators

Nd:YAG

solid-state lasers

Advanced x-ray multilayer waveguide optics

Zhong, Qi

11 August 2017

No description available.

530

Physik (PPN621336750)

X-ray waveguide

X-ray resonators

multilayer

near-field distribution

far-field patterns