Tesis sobre el tema "Photonic crystal cavity (PhC cavity)"
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Liles, Alexandros Athanasios. "Hybrid photonic crystal cavity based lasers". Thesis, University of St Andrews, 2017. http://hdl.handle.net/10023/12081.
Texto completoDebnath, Kapil. "Photonic crystal cavity based architecture for optical interconnects". Thesis, University of St Andrews, 2013. http://hdl.handle.net/10023/3870.
Texto completoAl, Johani Ebrahim Dakhil. "NIR silicon photodetector enhancement using photonic crystal cavity resonators". Thesis, Massachusetts Institute of Technology, 2019. https://hdl.handle.net/1721.1/128418.
Texto completoCataloged from PDF of thesis. "The Table of Contents does not accurately represent the page numbering"--Disclaimer page.
Includes bibliographical references (pages 45-47).
The growing demand for efficient infrared sensors for light ranging, thermal-cameras, and soon, free-space optical communications has yet to be answered. In this study, we use polycrystalline silicon in conjunction with a photonic crystal cavity (PhCC) to enhance light absorption for efficient sensing. We present a cost-effective alternative to the current III-V detectors. By adding a 2D-PhC resonator layer, surface-illuminated light can be confined within a 10 micron region with great intensity, leading to a higher effective path-length and improved detector responsivity. More than 1000 variants of this detector are designed and implemented in a 65nm CMOS process. Using a nearest neighbor method, we find the optimized designs. We validate experimental findings by simulating mode behavior of the PhCC structures using FDTD models. In addition, a numerical study on cavity parameter optimization for achieving high Q-factors and extinction ratios specifically for surface-illumination is presented. We report polysilicon PhCC-enhanced sensors with Q-factors of 6500 resulting in responsivities at 1300nm up to 0.13mA/W -a 25x improvement over non-resonant surface-illuminated Silicon detectors.
by Ebrahim Dakhil Al Johani.
S.B.
S.B. Massachusetts Institute of Technology, Department of Physics
Hendrickson, Joshua. "Cavity Quantum Electrodynamics with Quantum Dot - Photonic Crystal Nanocavities". Diss., The University of Arizona, 2010. http://hdl.handle.net/10150/196032.
Texto completoRichards, Benjamin Colby. "1D and 2D Photonic Crystal Nanocavities for Semiconductor Cavity QED". Diss., The University of Arizona, 2011. http://hdl.handle.net/10150/145275.
Texto completoTekeste, Meron Yemane. "Photonic Crystal Based Wavelength Demultiplexing". Miami University / OhioLINK, 2006. http://rave.ohiolink.edu/etdc/view?acc_num=miami1155299701.
Texto completoMirsadeghi, Seyed Hamed. "Optical trapping using a photonic crystal cavity : design and sample fabrication". Thesis, University of British Columbia, 2010. http://hdl.handle.net/2429/23738.
Texto completoChoi, Hyeongrak. "Photonic crystal cavity with self-similar structure and single-photon Kerr nonlinearities". Thesis, Massachusetts Institute of Technology, 2017. http://hdl.handle.net/1721.1/108985.
Texto completoCataloged from PDF version of thesis.
Includes bibliographical references (pages 31-34).
We propose a design of photonic crystal cavity with self-similar electromagnetic boundary conditions, that achieve ultrasmall mode volume (Vff). The electric energy density of a cavity mode can be maximized in the air or dielectric region, depending on the choice of boundary conditions. We illustrate the design concept with a silicon-air ID photon crystal cavity that reaches an ultrasmall mode volume of Vff ~ 7.01 x 10- 5 [lambda]3 at [lambda] ~ 1550 nm. We show that the extreme light concentration in our design can enable ultra-strong Kerr nonlinearities, even at the single photon level. These features open new directions in cavity quantum electrodynamics, spectroscopy, and quantum nonlinear optics.
by Hyeongrak Choi.
S.M.
Tignone, Edoardo. "Cavity quantum electrodynamics : from photonic crystals to Rydberg atoms". Thesis, Strasbourg, 2016. http://www.theses.fr/2016STRAF008/document.
Texto completoIn the first chapter of this thesis, we study a quasiperiodic array of dielectric membranes inside a high-finesse Fabry-Pérot cavity. We work within the framework of the transfer matrix formal- ism. We show that, in a transmissive regime, the introduction of a quadratic spatial defect in the membrane positions enhances both the linear and quadratic optomechanical couplings between optical and mechanical degrees of freedom. Finally, we propose a theoretical model to simulate a one-dimensional quasiperiodic photonic crystal. In the second chapter of this thesis, we consider the problem of the transport of an exciton through a one-dimensional chain of two-level systems. We embed the chain of emitters in a transverse optical cavity and we show that, in the strong coupling regime, a ultrafast ballistic transport of the exciton is possible via the polaritonic modes rather than ordinary hopping. Due to the hybrid nature of polaritons, the transport efficiency is particularly robust against disorder and imperfections in the system. In the third chapter of this thesis, we consider an ordered array of cold atoms trapped in an optical lattice inside a hollow-core photonic crystal fiber. We study photon-photon interactions mediated by hard-core repulsion between excitons. We show that, in spite of underlying repulsive interac- tion, photons in the scattering states demonstrate bunching, which can be controlled by tuning the interatomic separation. We interpret this bunching as the result of scattering due to the mismatch of the quantization volumes for excitons and photons, and discuss the dependence of the effect on experimentally relevant parameters. In the fourth chapter of the thesis, we extend the results of the previous chapter to Rydberg atoms
Gardin, Samuele. "Optical Active Thin Films for Micro-Cavity Lasers". Doctoral thesis, Università degli studi di Padova, 2008. http://hdl.handle.net/11577/3426044.
Texto completoLo studio delle microcavità ottiche riveste un grande interesse per applicazioni in svariati campi, quali la ricerca di sorgenti laser tunabili e compatte, filtri per le telecomunicazioni, sensori chimici e biologici, etc. Le microcavità ottiche sono fondamentali per l’ottenimento di dispositivi laser compatti, aventi bassa soglia di emissione laser, ove il campo elettromagnetico è confinato in volumi estremamente ridotti, con conseguente aumento dell’interazione radiazione-materia,. Tra le possibili architetture della cavità risonante, per dispositivi pompati otticamente, i cristalli fotonici rappresentano una delle soluzioni più promettenti. Questi ultimi sfruttano la periodicità in una o più direzioni e sono risonanti con determinate lunghezze d’oda della radiazione elettromagnetica. In un cristallo fotonico bidimensionale il confinamento verticale è garantito dal profilo verticale dell’indice di rifrazione, mentre il confinamento nel piano del cristallo è opera della strutture periodica. Nei cristalli fotonici il contrasto di indice di rifrazione della struttura periodica è tale da aprire un intervallo completo di energie proibite per la propagazione della radiazione nel mezzo. Essa può quindi essere confinata in volumi molto piccoli, dell’ordine del cubo della lunghezza d’onda, con fattori di qualità sperimentali superiori a 106. Inoltre i valori ottenuti sperimentalmente sono inferiori a quelli previsti teoricamente, e ulteriori passi in avanti saranno possibili con lo sviluppo delle tecniche litografiche e di produzione del materiale attivo. I cristalli fotonici nei quali il contrasto di indice di rifrazione è insufficiente per aprire un band-gap completo si comportano come reticoli distributed feedback, DFB. In un dispositivo DFB, i modi risonanti ricevono il feedback a lunghezze d’onda specifiche, determinate dal periodo del reticolo. La forza dell’accoppiamento è legata alla costante di accoppiamento ?, la quale, a sua volta, dipende dal contrasto di indice nel reticolo e all’estensione totale del reticolo. Il prodotto ?L deve essere sufficiente per garantire il feedback richiesto per l’emissione laser. In un laser a pompaggio ottico, una sorgente esterna fornisce al mezzo attivo l’energia di eccitazione richiesta per raggiungere l’inversione di popolazione, requisito necessario per ottenere il guadagno all’interno del mezzo e quindi l’amplificazione. Affinché si verifichi assorbimento, l’energia del fascio di pompa deve essere in risonanza con una delle transizioni del mezzo attivo. Per campi incidenti molto intensi, come possono essere quelli legati a fasci laser focalizzati, diventano tuttavia apprezzabili anche fenomeni di assorbimento multi fotonici. Si può quindi avere assorbimento anche utilizzando sorgenti di pompa aventi energie inferiori all’energia di risonanza del mezzo attivo. L’assorbimento a due fotoni (TPA), legato alla suscettibilità non lineare al terzo ordine, comporta l’assorbimento simultaneo di due fotoni, con energia: E_exc-E_ground=2?? L’assorbimento del primo fotone promuove l’elettrone dallo stato fondamentale a uno stato virtuale, dal quale esso passa immediatamente allo stato eccitato attraverso l’assorbimento simultaneo di un secondo fotone incidente. Infine il sistema può tornare allo stato fondamentale, attraverso l’emissione di un fotone a energia superiore rispetto ala pompa. Gran parte del lavoro di dottorato è incentrato sulla realizzazione e caratterizzazione di microcavità attive per l’ottenimento di sorgenti laser. All’interno di tale attività sono stati studiati due sistemi differenti: Una microcavità laser a semiconduttore, realizzata sfruttando le proprietà dei cristalli fotonici bi-dimensionali, che emette alla lunghezza d’onda delle telecomunicazioni. Un dispositivo laser DFB, pompato oticamente a due fotoni, per la conversione di emissione laser dall’infrarosso al visibile. All’interno della seconda tematica, particolare attenzione è stata rivolta alla caratterizzazione delle proprietà di emissione indotta a due fotoni di un cromoforo organico e di quantum dots di un semiconduttore II-VI, il CdSe, entrambi inglobati in matrice sol-gel. Un terzo soggetto è costituito dallo studio delle proprietà foto catalitiche di film sol-gel ibridi a base di silica e titania, in vista di possibili applicazioni per il patterning diretto tramite radiazione UV. CONFINAMENTO DI MODI LENTI IN GUIDA D’ONDA A CRISTALLO FOTONICO PER L’OTTENIMENTO DI MICROCAVITA’ LASER Questa ricerca riguarda lo studio di cavità, ottenute sfruttando cristalli fotonici bidimensionali, a basso volume modale e alto fattore di qualità Q, finalizzate all’ottenimento di dispositivi laser integrati a bassa soglia. Questo lavoro si basa sull’utilizzo dei modi guidati lenti corrispondenti al punto ad elevata simmetria K della curva di dispersione di una guida d’onda W1-PC. Una guida d’onda W1-PC si ottiene da un cristallo fotonico a simmetria triangolare, attraverso la rimozione di una fila di buche lungo la direzione ?K. In questo modo si introduce un difetto lineare, il quale si riflette nella comparse di modi del difetto, aventi frequenze localizzate all’interno del band-gap del cristallo fotonico, che pertanto decadono esponenzialmente all’interno del cristallo. Le bande associate ai modi del difetto hanno curvatura nulla in corrispondenza dei punti a elevata simmetria, e ciò implica una velocità di gruppo del modo nulla in corrispondenza di tali punti. L’estensione laterale dei modi lenti viene controllata agendo sull’indice di rifrazione del cristallo fotonico, in modo da creare una etero struttura in grado di confinarli efficacemente. L’indice effettivo della guida viene modificato localmente depositando un film di polimero all’interfaccia superiore della guida. La forza del confinamento dipende dall’entità della variazione dell’indice e dalla curvatura della banda associata al modo lento. L’attività svolta all’interno di questo progetto consiste nel design della struttura, nella sua realizzazione sperimentale e infine nella caratterizzazione ottica del dispositivo. Per ottimizzare i parametri del dispositivo e comprendere il comportamento della radiazione elettromagnetica all’interno della cavità, sono stati impiegati strumenti di calcolo computazionale, quali i software MPB e TESSA 3D-FDTD. I parametri delle simulazioni sono stati poi utilizzati per la realizzazione del cristallo fotonico, effettuata tramite tecniche litografiche, quali la litografia con fascio elettronico e l’etching ionico. La caratterizzazione ottica del dispositivo è stata effettuata con un apposito set-up, al fine di determinarne le prestazioni. EMISSIONE LASER CON CONVERSIONE DI FREQUENZA La conversione di frequenza laser fornisce l’interessante possibilità di convertire una sorgente laser economica e di facile reperibilità nell’infrarosso, in una sorgente laser nel visibile di enorme interesse tecnologico. Essa si basa sull’emissione indotta a seguito di processi di assorbimento a due fotoni nel vicino IR. In questo lavoro verranno presentati gli sforzi profusi e i risultati preliminari ottenuti nella ricerca di un dispositivo laser allo stato solido per la conversione di frequenza. A tal fine sono state investigate le proprietà di conversione di un cromoforo push-pull organico disperso in matrici sol-gel ibride, e di quantum dots di semiconduttore II-VI, CdSe-CdS-ZnS, dispersi in una matrice inorganica a base di zirconia. Il composto organico presenta interessanti proprietà di emissione indotta a due fotoni in soluzione. Tuttavia la sua scarsa resistenza al pompaggio ottico in matrice solida preclude un suo possibile impiego e rende estremamente problematica la stessa caratterizzazione ottica. Al contrario i film di QDs-ZrO2 mostrano una buona efficienza di conversione di frequenza, con valori di guadagno per l’emissione spontanea amplificata interessanti, e elevata stabilità del segnale emesso nel tempo. E’ stata pertanto studiata la possibilità di implementare i film di QDs-ZrO2 all’interno di una cavità risonante di tipo distributed feedback per ottenere un dispositivo laser compatto e integrabile. I parametri del reticolo sono stati determinati con il software MPB e sono stati fissati in modo da avere amplificazione in corrispondenza del massimo di emissione dei QDs. Sono tutt’ora in corso delle prove di realizzazione del reticolo DFB tramite litografia elettronica su film sol-gel appositamente sviluppati per il patterning diretto. Infine è stato messo appunto un set-up dedicato per la caratterizzazione ottica dei dispositivi prodotti. FILM SOL-GEL IBRIDI A BASE DI SILICA-TITANIA PER IL PATTERNING DIRETTO CON LUCE UV E’ stata studiata l’attività fotocatalitica di film sol-gel ibridi a base di silica-titania, promossa dalla radiazione UV. I film sono stati caratterizzati a livello micro strutturale tramite spettroscopia infrarossa, e sono stati osservati al microscopio elettronico per confermare la presenza di cluster di titanio cristallino al loro interno. L’efficienza del processo di fotocatalisi è stata determinata mediante test standard che si avvalgono dell’acido stearico come materiale di riferimento. Quest’ultimo infatti è in grado di simulare efficacemente i comuni inquinanti organici, è può essere depositato facilmente per spin-coating. Successivamente è stata valutata la possibilità di sfruttare l’attività foto catalitica per il patterning diretto dei film. Tale studio parte dall’osservazione che la fotocatalisi si manifesta anche nei confronti della componente organica dei film sol gel ibridi.. Questo fenomeno è accompagnato da una diminuzione dello spessore del film, fino al 60% sullo spessore iniziale, e può pertanto essere sfruttato per la realizzazione di strutture a rilievo. Test di patterning diretto sono stati effettuati irradiando il film con una lampada UV attraverso una maschera in quarzo, ottenendo strutture di dimensione micrometrica ben definite.
Benevides, Rodrigo da Silva 1989. "Optomechanics in photonic crystal cavities = Optomecânica em cavidades de cristal fotônico". [s.n.], 2016. http://repositorio.unicamp.br/jspui/handle/REPOSIP/305732.
Texto completoDissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Física Gleb Wataghin
Made available in DSpace on 2018-08-31T00:04:36Z (GMT). No. of bitstreams: 1 Benevides_RodrigodaSilva_M.pdf: 12114965 bytes, checksum: 9db892fbca5fe67d883b58515f6e1dc7 (MD5) Previous issue date: 2016
Resumo: A área de optomecânica de cavidades passou por um grande desenvolvimento na última década. O crescente interesse nesta área foi impulsionado principalmente pela interessante conexão entre movimentos mecânicos e campos ópticos. Tal acoplamento é amplamente explorado em diversos experimentos, com escalas variando de interferômetros quilométricos a cavidades ópticas microestruturadas. O principal desafio em todos estes experimentos é criar um dispositivo optomecânico com um longo tempo de vida óptico e mecânico, ao mesmo tempo em que mantém um grande acoplamento. Neste contexto, as cavidades de cristal fotônico surgiram como fortes candidatas já que elas são capazes de confinar campo óptico em um volume modal muito reduzido e por um longo tempo de vida. No regime clássico, estes pequenos dispositivos, que podem oscilar mecanicamente com frequências de alguns poucos MHz até dezenas de GHz, permitem detectar forças, massas e deslocamentos muito pequenos. Elas também são usadas para produzir osciladores mecânicos de alta qualidade, que podem ser sincronizados por intermédio do campo óptico. No regime quântico, a optomecânica quântica de cavidades tem sido usada para ajudar na compreensão do fenômeno de decoerência em uma escala mesoscópica, criando estados não-clássicos fortemente acoplados entre campo óptico e movimento mecânico, intermediado pela interação optomecânica. Entretanto, até agora, foram realizados poucos estudos sobre a possibilidade de produção destes dispositivos em larga escala, um passo necessário para massivas aplicações tecnológicas e científicas destes dispositivos. Neste trabalho, descrevemos um estudo detalhado de cavidades optomecânicas baseadas em cristais fotônicos produzidos numa fábrica de dispositivos compatíveis com indústria CMOS. Nós demonstramos a viabilidade desta plataforma explorando três geometrias distintas de cristais fotônicos. Primeiramente, nós mostramos como atingir fatores de qualidade muito elevados usando uma geometria consistente com as limitações de fabricação. Nossos fatores de qualidade são os maiores já reportados usando cavidades de cristal fotônico fabricadas com litografia óptica. Em seguida, investigamos uma cavidade do tipo fenda, possibilitando a produção de alto acoplamento optomecânico usando um movimento mecânico planar. Por fim, desenhamos um escudo acústico, com dimensões variadas, para restringir o modo mecânico para dentro da região óptica. Essa estratégia foi usada de forma bem sucedida para produzir altos fatores de qualidade mecânicos e acoplamentos optomecânicos, permitindo a observação de resfriamento e amplificação de modos mecânicos à baixa temperatura
Abstract: The field of cavity optomechanics has experienced a rapid growth in last decade. The increasing interest in this area was mostly driven by the intricate interface between mechanical motion and the optical field. Such coupling is widely explored in a variety of experiments scaling from kilometer long interferometers to micrometer optical cavities. The challenge on all these experiments is to create an optomechanical device with long-living optical and mechanical resonances while keeping a large coupling rate. In this context photonic crystal cavities have emerged as a strong candidate since they are able to produce very small optical mode volume and long optical lifetime. In the classical regime, these tiny devices, which can mechanically oscillate from frequencies ranging from couple MHz up to tens of GHz, allows for highly sensitive small forces, masses, displacements and acceleration detectors. They are also used to produce high quality optically driven mechanical oscillators which can be synchronized via an optical field. In the quantum regime, cavity quantum optomechanics is being used to understand decoherence phenomena in a mesoscopic scale by creating nonclassical states between light and mechanical modes intermediated by optomechanical interaction. However up to now, few studies have been done concerning the possibility of large scale production of these devices, a necessary step towards massive technological and scientific application of these devices. In this work, we describe a detailed study of optomechanical cavities based upon photonic crystal cavities fabricated in a CMOS-compatible commercial foundry. We prove the feasibility of this platform exploring three photonic crystal designs. First, we show how to achieve ultra-high optical quality factors using a design resilient to the fabrication constrains. Our demonstrated quality factors are the largest ever reported using photonic crystal cavities manufactured by optical lithography. Secondly, we investigate a slot type optical cavity, able to produce very large optomechanical coupling using a simple in-plane motion. Finally, we design a trimmable acoustic shield to restrict the mechanical motion inside the optical region. Such strategy was successfully used to produce high mechanical quality factor and optomechanical coupling which enabled the observation of cooling and amplification of mechanical modes at low temperature
Mestrado
Física
Mestre em Física
2014/12875-4
132737/2014-0
FAPESP
CNPQ
Gu, Huanhuan 1983. "Photonic crystal cavity analysis using a simplified flexible local approximation method with an anisotropic perfectly matched layer boundary condition". Thesis, McGill University, 2006. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=99765.
Texto completoFLAME is a computational technique that is well suited to problems involving a large number of repeated structures. It has been used before to analyze photonic crystal cavities. In this thesis, an improved FLAME is developed, leading to a standard eigenproblem, which allows the use of sparse-matrix solution methods. Consequently, much larger problems can be solved. In addition, a graded perfectly matched layer (PML) is applied to absorb more effectively the out-going waves.
The new method is applied to cavities based on NxN arrays of rods, from N=3 to 9. Good accuracy is achieved compared with the finite-element method (FEM), with an error of less than 0.001% in the resonant frequency for a density of 42.6 nodes per wavelength (when N=5), which shows better consistency than the previous FLAME. Further, the new method converges more quickly than the FEM with linear elements, as the node density is increased, though it is less accurate than the FEM with quadratic elements.
Welna, Karl P. "Electrically injected photonic-crystal nanocavities". Thesis, University of St Andrews, 2011. http://hdl.handle.net/10023/2528.
Texto completoKim, Jae Hwan (Eric). "Finite-Difference Time-Domain (FDTD) simulations and fabrication of a Fabry-Perot cavity using photonic crystal arrays". Thesis, University of British Columbia, 2007. http://hdl.handle.net/2429/32578.
Texto completoApplied Science, Faculty of
Electrical and Computer Engineering, Department of
Graduate
Mercadé, Morales Laura. "Phonons Manipulation in Silicon Chips Using Cavity Optomechanics". Doctoral thesis, Universitat Politècnica de València, 2021. http://hdl.handle.net/10251/171461.
Texto completo[CA] L'optomecànica de cavitats s'ocupa de la interacció entre la llum i la matèria a través de l'efecte de pressió de radiació quan les ones òptiques i mecàniques implicades estan confinades en una cavitat. En aquests sistemes optomecànics, la interacció entre fotons i fonons dona lloc a multitud de fenòmens en funció de les condicions de les condicions en les quals s'excita el sistema. En particular, es poden obtindre dos règims diferents en els quals es pot, o bé, absorbir fonons (denominat com a refredament de la cavitat), o bé, es poden amplificar (règim conegut com a calfament de la cavitat). El primer règim pot usar-se, per exemple, per a reduir l'ocupació tèrmica del sistema i s'usa comunament per a aplicacions relatives al processament d'informació quàntica. No obstant això, l'amplificació de fonons, que pot ser desenvolupada a temperatura ambient, ha permés aconseguir fins i tot les condicions necessàries per a obtindre làsers de fonons, la qual cosa permet poder usar aquesta característica com a element de referència en aplicacions relatives al processament de senyals de radiofreqüència (RF). En aquesta tesi s'aborda el confinament simultani i la interacció de fotons i fonons en estructures periòdiques i en guies no suspeses en sistemes CMOS compatibles basats en tecnologia de silici. A través de l'estudi experimental d'aquestes estructures periòdiques, hem demostrat que les cavitats optomecàniques poden actuar com a elements clau en el domini de la fotònica de microones, on tot el processament de la informació pot ser realitzat en el domini òptic a través de la manipulació de fonons en aquest sistema. En particular, vam mostrar que només un oscil·lador optomecànic pot actuar tant com un oscil·lador local i un mesclador de RF, i aquest pot operar com un convertidor de freqüències de senyals de cadenes de dades reals. Per a millorar aquesta funcionalitat, també es demostra que és possible obtindre tant tren de freqüències òptics així com múltiples modes mecànics confinats, augmentant així el seu rendiment. D'altra banda, amb l'objectiu de poder solucionar les possibles limitacions d'aquests sistemes, en aquesta tesi també s'exploren diferents configuracions que permeten la interacció acusto-òptica simultània en la mateixa estructura. Específicament, s'analitza la interacció optomecànica en discos d'alt índex que suporten estats quasi-lligats en el continu així com una proposta de guies no suspeses que suporten altes ganancies de Brillouin. Aquest últim estudi hauria de permetre el desenvolupament de sistemes optomecànics no suspesos on el problema de la pèrdua de fonons cap al substrat es resolga, fet que permetria enormement simplificar la fabricació d'aquests sistema optomecànics en xips de silici així com el seu ús en diverses aplicacions.
[EN] Cavity optomechanics deals with the interaction of light and matter through the radiation pressure effect, when the involved optical and mechanical waves are confined in a cavity. In optomechanical systems, photon and phonon interaction give rise to a plethora of phenomena as a function of the driving conditions of the system. Relative to that, two distinctive regimes can be obtained which enable either the absorption of phonons (cavity cooling) or their amplification (cavity heating). The first regime can be used to reduce the thermal occupancy of the system and it is commonly used for quantum processing information applications. However, the amplification of phonons, which can be performed at room temperature, has enabled to even reach phonon lasing conditions, a feature that could be used as a reference element for RF processing applications. In this thesis, we address the simultaneous confinement and interaction of photons and phonons in periodic structures and unreleased waveguides on CMOS-compatible silicon-based technology. Throughout the experimental study of those periodic structures, we demonstrate that optomechanical cavities can perform as key blocks in the microwave photonics domain where all the information processing can be performed in the optical domain through phonon manipulation. In particular, we show that a single optomechanical oscillator can perform as both a local oscillator and an RF mixer, and it can operate as a frequency-converted of real data stream signals. To improve its performance, it is also demonstrated that optical frequency combs can be obtained by means of this system and multiple mechanical mode confinement can also be achieved, thus improving the functionality of the system. On the other hand, in order to fulfill the possible limitations of those systems, we explore different configurations enabling the simultaneous acousto-optic interaction together into the same structure. Especially, optomechanical interaction in high-index disks supporting quasi-bound states in the continuum is addressed, as well as a proposal of unreleased waveguides supporting strong Brillouin gains is also reported. The last one should lead to unreleased optomechanical interacting systems where the issue of phonon leakage into the substrate is solved, which could enormously simplify the fabrication of optomechanical systems in silicon chips as well as their practical use in multiple applications.
This work has been carried out under the framework of the H2020 FET-Open EU project PHENOMEN. This Thesis was also supported by the Programa de Ayudas de Investigación y Desarrollo (PAID-01-16) de la Universitat Politècnica de València
Mercadé Morales, L. (2021). Phonons Manipulation in Silicon Chips Using Cavity Optomechanics [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/171461
TESIS
Kiwanuka, Ssegawa-Ssekintu. "Supercontinuum radiation for ultra-high sensitivity liquid-phase sensing". Thesis, University of Cambridge, 2014. https://www.repository.cam.ac.uk/handle/1810/245137.
Texto completoBarth, Michael. "Hybrid nanophotonic elements and sensing devices based on photonic crystal structures". Doctoral thesis, Humboldt-Universität zu Berlin, Mathematisch-Naturwissenschaftliche Fakultät I, 2010. http://dx.doi.org/10.18452/16155.
Texto completoThis thesis deals with the development and investigation of novel photonic crystal structures for applications in nanophotonics and optofluidics. Thereby, a first series of experiments focuses on the characterization and optimization of photonic crystal cavities in the visible wavelength range, demonstrating unprecedented cavity quality factors of up to 3400. These structures are subsequently employed as platforms for the creation of advanced hybrid nanophotonic elements by coupling external particles (such as diamond nanocrystals and metal nanoparticles) to the cavities in a well-controlled manner. For this purpose, a nanomanipulation method is developed, utilizing scanning probes for the deterministic positioning and assembly of particles on the photonic crystal structures. Various types of such hybrid elements are realized and investigated, including diamond-coupled cavities, plasmon-coupled cavities, and metal-diamond hybrid structures. Apart from applications in nanophotonics, different types of photonic crystal structures are also studied with regard to their performance as biochemical sensing elements. For the first time a thorough numerical analysis of the optical forces exerted on objects in the near-field of photonic crystal cavities is conducted, providing novel means to trap, detect, and investigate biological particles in integrated optofluidic devices. Furthermore, various types of photonic crystal fibers are studied with regard to their detection sensitivity in absorption and fluorescence measurements, revealing a clear superiority of selectively infiltrated hollow-core designs in comparison to solid-core fibers.
Sciancalepore, Corrado. "Intégration hétérogène III-V sur silicium de microlasers à émission par la surface à base de cristaux photoniques". Phd thesis, Ecole Centrale de Lyon, 2012. http://tel.archives-ouvertes.fr/tel-00915280.
Texto completoShakoor, Abdul. "Silicon nanocavity light emitters at 1.3-1.5 µm wavelength". Thesis, University of St Andrews, 2013. http://hdl.handle.net/10023/3673.
Texto completoEscalante, Fernández José María. "Theoretical study of light and sound interaction in phoxonic crystal structures". Doctoral thesis, Universitat Politècnica de València, 2013. http://hdl.handle.net/10251/33754.
Texto completoEscalante Fernández, JM. (2013). Theoretical study of light and sound interaction in phoxonic crystal structures [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/33754
TESIS
Sanchis, Kilders Pablo. "Coupling techniques between dielectric waveguides and planar photonic crystals". Doctoral thesis, Universitat Politècnica de València, 2008. http://hdl.handle.net/10251/1854.
Texto completoSanchis Kilders, P. (2005). Coupling techniques between dielectric waveguides and planar photonic crystals [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/1854
Palancia
Peckus, Martynas. "Spatial light structures in linear and nonlinear mini-resonators". Doctoral thesis, Lithuanian Academic Libraries Network (LABT), 2009. http://vddb.library.lt/obj/LT-eLABa-0001:E.02~2009~D_20091008_155731-00827.
Texto completoŠioje disertacijoje teoriškai ir eksperimentiškai tiriamas erdvinių šviesos darinių formavimasis didelės apertūros monolitiniuose parametriniuose šviesos generatoriuose (PŠG), nagrinėjamos fotoninių kristalų (FK) rezonatorių erdvinės dispersijos savybės. Darbas susideda iš įvado, literatūros apžvalgos ir dviejų pagrindinių dalių. Pirmoje dalyje aprašomas PŠG tyrimas didelės apertūros (5x5x1,5 mm) BBO I fazinio sinchronizmo tipo kristalo monolitiniame mini rezonatoriuje. Generatoriui kaupinti naudojami antros Nd:IAG lazerio harmonikos (532 nm) 13 ns trukmės ir 7-15 mJ energijos impulsai. Erdviniai šviesos dariniai registruojami artimajame ir tolimajame laukuose. Eksperimentiškai parodoma ir teoriškai interpretuojama, kad tokio rezonatoriaus emisija gali būti kūginė ir daugiakūgė, o signalinės ir skirtuminės bangų kryptys gali būti valdomos keičiant kampą tarp rezonatoriaus optinės ašies ir kaupinimo pluošto. Taip pat parodoma, kad dryžių erdvinio šviesos darinio formavimasis gali būti pasiekiamas injektuojant pagrindinio dažnio užkrato signalą. Antrojoje disertacijos dalyje pristatomi ir tiriami plokščiųjų veidrodžių Fabri ir Pero tipo rezonatoriai su vidine lūžio rodiklio moduliacija, atitinkančia vieną fotoninio kristalo (FK) išilginį periodą. FK rezonatoriai sukurti veidrodžių paviršiuje suformuojant 2 µm, 4 µm ir 15 µm periodinę lūžio rodiklio moduliaciją (t.y. suformuojant vienmatę arba dvimatę fazinę difrakcinę gardelę). FK rezonatorių kampinis pralaidumas matuotas... [toliau žr. visą tekstą]
Han, Zheng. "Vers le laser Raman à cristal photonique en filière silicium". Paris 11, 2010. http://www.theses.fr/2010PA112162.
Texto completoThis work of this thesis has been primarily devoted in the studies and the realization of a Raman laser based on silicon photonic crytal structures. We have shown that access ridge waveguides combined with the inverted tapers allow in optimise efficiently the experimental coupling of the light from an optical fibes into the photonic crystal. We have fabricated the photonic crystal cavities in membrane approach which have allowed to reach quality factor above 2 million with a modal volume of the order of cube wavelenght. The quality factor of photonic crystal cavities has been found dependent on the position of the photonic crystal waveguide used for the coupling. In parallel, the numerical modelings on a new design of the photonic crystal cavities in SOI approach have demonstrated an ultra-high quality factor above 8 000 000. We have observed a reshaping of the Raman spectrum and a more than tenfold enhancement of the Raman scattering efficiency in a W1 photonic crystal waveguide as compared to a single mode ridge waveguide. In particular, we have analysed this enhancement through the Purcell effect. We have shown that a deterministic value and measurement of the Purcell factor in a semiconductor microcavity can be obtained by using spontaneous Raman scattering as an internal source. A new design of a microcavity supporting a double resonance has allowed us to observe stimulated Raman scattering at room temperature under continuous excitation. The model, which accounts for stimulated scattering, two-photon absorption and free-carrier absorption, allows us to predict the onset of Raman lasing in silicon photonic crystals
Milord, Laurent. "Dispositifs photoniques innovants pour le piégeage optique : Cavité étendue à double période et structure hybride cristal photonique-nano antenne". Thesis, Lyon, 2016. http://www.theses.fr/2016LYSEI026/document.
Texto completoSince the first work on optical tweezers by Ashkin, a lot of efforts have been made to trap nanoparticles. However, optical tweezers are diffraction limited and can hardly trap particles below 200 nm. This limit can be overstepped using the optical gradient forces of an evanescent field generated and amplified by a photonic nano cavity. Nonetheless, this approach faces two major issues for applications: the trapping section is very small, making the capture of a Brownian motion animated particle very unlikely, and for the “ultimate” nano antennas with nanometric optical modes, their excitation from free space is not effective. The goal of this work is to overcome these two difficulties. To increase the trapping surface, we will first present a device using slow Bloch modes within a double period extended cavity designed in a photonic crystal made out of SOI. We will show that this approach allow for the trapping of 200, 100 and 75 nm particles on an extended surface of 5x5 µm² using a free space laser beam excitation. Secondly, we will investigate the free space excitation of nanometric structures. A photonic crystal – nano antenna mixed structure will be presented, where the photonic crystal is used as a photon pool for the nano antenna. This lead to a funnel effect where the light coming from a large free space laser beam (5µm wide) is focused into the nano antenna. The trapping of 100 nm particles will demonstrate the relevance of this approach
Ruan, Zhichao. "Dispersion Engineering : Negative Refraction and Designed Surface Plasmons in Periodic Structures". Doctoral thesis, Stockholm : Informations- och kommunikationsteknik, Kungliga Tekniska högskolan, 2007. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-4542.
Texto completoOvvyan, Anna. "Nanophotonic circuits for single photon emitters". Doctoral thesis, 2018. http://hdl.handle.net/2158/1175896.
Texto completoAli, Aaron. "Gigahertz Modulation of a Photonic Crystal Cavity". Thesis, 2013. http://hdl.handle.net/1974/7991.
Texto completoThesis (Master, Physics, Engineering Physics and Astronomy) -- Queen's University, 2013-04-29 12:33:49.254
Xu, Tao. "Modelling of a nanowire array based photonic crystal cavity". 2005. http://link.library.utoronto.ca/eir/EIRdetail.cfm?Resources__ID=362433&T=F.
Texto completofu, Yang y 楊富順. "Coherence properties of quantum dots in photonic crystal cavity". Thesis, 2009. http://ndltd.ncl.edu.tw/handle/29154021860902331288.
Texto completo國立中央大學
物理研究所
97
Owing to the spontaneous emission coupling factor (β) in photonic crystal cavity, it can efficiently reduce the lasing threshold in quantum dots laser. In this paper, we will investigate qL2 cavity. By the measurement of micro-photoluminescence (μ-PL) in room temperature, the β of qL2 cavity are around 0.5~0.75, and the lasing threshold are around 6~12μW. Owing to the high β of photonic crystal quantum dots laser, the light-in light-out curve show the soft turn-on behavior around the threshold, and narrowing degree of the line-width is not obvious around the threshold. We study coherence property of light source by measuring coherence length in using Michelson interferometer. In addition to the μ-PL system, adding another way to study Laser property photonic crystal laser.
Chiang, Ting-wei y 江廷尉. "Fabrication of Photonic Crystal with Resonant Cavity on SOI wafer". Thesis, 2007. http://ndltd.ncl.edu.tw/handle/41471515173579339443.
Texto completo國立中正大學
光機電整合工程所
95
In this thesis, we utilized the finite different time domain (FDTD) and planer wave expansion (PWE) methods to simulate the band gap properties and structures of photonic crystals. By this two simulation methods, we can obtain the resonance defect modes in optical communication wavelength. In the fabrication process, we use e-beam lithography technique to do the triangle air-hole 2D photonic crystals with defects on electro-resist that agreed with the simulation results. And then use reactive ion etching (RIE) to transfer the patterns into SOI wafer. Finally, remove silica between the silicon of SOI wafer by 3 wt-% HF. This method can suspend the silicon photonic crystal, and the refractive index contrast is become larger in the vertical direction. This 2D slab photonic crystal can be expected to match the photonic band gap properties with 3D photonic crystals.
Lin, Chia-han y 林佳翰. "Cavity modes modification research of two-dimensional photonic crystal cavities". Thesis, 2008. http://ndltd.ncl.edu.tw/handle/14357431544094875737.
Texto completo國立中央大學
物理研究所
96
Photonic crystal is an artificial device which arranges its dielectric material periodically. We can fabricate it as a wave guide or cavity via different design ideas. Two- dimension photonic crystals had significant development in recently decade. Numerous researchers were interested in H1 cavities and L3 cavities which were demonstrated possessing high quality factor as 45000. My thesis investigates resonance modes of H1 cavities and L3 cavities. Via adjusting the geometry structures of these cavities, we can understand the correlation of cavity modes between H1 and L3 cavities. Comparing theory analysis and measurement experiment, we can know well about behaviors of these cavity modes. Furthermore, we realize the variation of quality factor more deeply.
Lin, Chien-Chung y 林劍忠. "Design of photonic crystal beam splitter based on resonant cavity". Thesis, 2015. http://ndltd.ncl.edu.tw/handle/01821890318095927803.
Texto completo健行科技大學
電子工程系碩士班
103
Photonic crystals are composed of periodic dielectric that has photonic band gap. It can effectively control the light of propagation. In this thesis, we analysis the band gaps of the square lattice photonic by plane wave expansion method, and design of optical power divider by using finite element time domain method. We simulated the light wave propagation in power divider by using finite-difference time-domain method. We also discussed the relationship of the cylindrical size and the transmission coefficient in the divider. Besides, we have simulated the structure of coupled-resonator optical waveguides. From the results that the two-dimensional square lattice arrangement in the center wavelengths characteristic of broadbandandhigh transmission. Further, we proposed the power beam splitter of multimode interference in photonic crystal waveguides. It is a nanometer scale of optical component and it has the ability to guide, split and filter. The results of this study should be applied for photonic integrated circuit in the future.
Huang, Chiahao y 黃家豪. "Tuning the cavity modes in two-dimensional photonic crystal coupled cavities". Thesis, 2011. http://ndltd.ncl.edu.tw/handle/25003976719062990741.
Texto completo國立中央大學
物理研究所
99
In this thesis, we investigate the coupling behavior of photonic crystal coupled L3 cavities through micro-photoluminescence (μ-PL) spectroscopy. By spatial separation tuning, we found that the mode splitting is proportional to the cavity coupling strength, and both of them decrease with the increasing distance between the two cavities. By air-holes-shift tuning, the movement of air holes results in size detune of the two cavities and decreases the coupling strength. By substrate heating tuning, the rising temperature causes the resonant wavelength red shift, but the change of refractive index of substrate does not influence the coupling strength significantly. By laser local heating tuning, the refractive index detune of the two cavities increases the mode splitting and decreases the cavity coupling strength. While the laser power exceeds 11mW, we observe spectral bifurcation phenomenon which results from the thermal vibration on photonic crystal membrane.
Yu, Chia-Ming y 游嘉銘. "WGM Coupling Behavior of Two-Dimensional Quasi-Periodic Photonic Crystal Micro-Cavity". Thesis, 2007. http://ndltd.ncl.edu.tw/handle/89082156087749439516.
Texto completo國立交通大學
顯示科技研究所
95
We investigate and discuss the strong whispering gallery mode (WGM) mode dependence on inner-most air-holes of Dodecagonal quasi-periodic photonic crystal (DQPC) D2 (formed by 7 missing air-holes) micro-cavity and its fabrication tolerance by randomly varying the lattice of two separate regions. Hence, we design and fabricate DQPC micro-cavity lasers sustaining WGM. And we measure the basic lasing characteristic of two separate regions to verify WGM mode dependence. For comparison, we also fabricate traditional triangular PC D2 micro-cavity with the same lattice variation regions. From the results between DQPC D2 micro-cavity and PC D2 micro-cavity, we can verify the WGM mode dependence on the inner-most air-holes of DQPC D2 micro-cavity again. Next, we extend the WGM mode in DQPC twin-cavity and triple-cavity. And we investigate the coupling behavior in these structures. We calculated resonance spectrum and resonance mode profiles of the DQPC twin and triple-cavity by 3D finite-difference time-domain (FDTD) method. And we fabricate the real device of DQPC twin and triple-cavity. The basic characteristics of DQPC twin and triple-cavity are measured by a micro-photoluminescence system. The measurement results are compared with the 3D FDTD simulation results.
Wu, Meng-Hong y 吳孟鴻. "The Near-Field Study of Photonic Crystal Vertical Cavity Surface Emitting Laser". Thesis, 2007. http://ndltd.ncl.edu.tw/handle/58906109271120838795.
Texto completo國立雲林科技大學
光學電子工程研究所
95
In this thesis, we report experimental demonstration of transverse optical pattern distribution and its evolution in photonic-crystal-structured VCSELs by using near-field scanning optical microscope and optical microscope imaging technologies. In our study, Laguerre-Gaussian mode in conventional 850 nm VCSEL and fundamental mode are observed in single defect photonic crystal VCSEL, spectively. Besides, linear and nonlinear localized patterns are observed in photonic crystal VCSELs, including Whispering-Gallery modes and soliton-like patterns.
Lu, Kuo-Jung y 呂國榮. "Spectroscopic studies of coupling between photonic crystal cavity and quantum dots/wells". Thesis, 2011. http://ndltd.ncl.edu.tw/handle/24769740257945472459.
Texto completo國立交通大學
電子物理系所
99
Photonic crystal D0 cavity InGaAsP quantum well laser have been studied by photoluminescence (PL). The monopole, WG, and dipole mode have been clarified by the μPL, SNOM, and FDTD simulation. By power-dependent PL, we study the spectral change of lasing process in the D0 photonic crystal structure. By the calculating the rate equation of lasing, we can acquire the spontaneous coupling factor β and the lasing threshold power. Then we study the photon correlation of the multi-excitonic states in quantum dots (QDs) embedded in photonic crystal L3 structure by HB-T interferometer. We can clarify the QD emission and the cavity mode by power- and temperature-dependent PL measurement. And we use time-resolved PL and HB-T experiment to study the photon correlation between multi-excitonic states in QD. The six-level rate equation has been set to simulate the photon correlation behaviors.
Tzeng, Kuo-Feng y 曾國峰. "Characterization of 850nm high speed and photonic crystal vertical cavity surface emitting lasers". Thesis, 2005. http://ndltd.ncl.edu.tw/handle/60846725766847784668.
Texto completo國立交通大學
光電工程系所
93
This thesis presents our study on GaAs based vertical-cavity surface-emitting laser (VCSEL) and is divided into two parts. The first part discuss the improvement of high speed performance of oxide VCSEL by utilizing tapered oxide layer. We setup wafer-level high speed measurement system which allows us to test device immediately and avoids parasitic effect from package. The damping rate from the modulation response was found to reduce two times in the tapered oxide VCSEL and therefore enhanced the maximal modulation bandwidth. With same oxide aperture size 5.5 μm, tapered oxide VCSEL shows better modulation bandwidth of 13.2 GHz while blunt oxide VCSEL has 9.5 GHz. A very clean eye was demonstrated from improved VCSEL with rising time of 26 ps, falling time of 40 ps and jitter of less than 20 ps, operating at 10Gb/s with 6mA bias and 6dB extinction ratio. We also build an equivalent circuit model to analyze the bandwidth limitation affected by VCSEL intrinsic impedance. The simulation results could make the modulation limitation clearly and help us to modify the VCSEL process for high speed operation. In the second part of the thesis, we report a high power (>1 mW) singlemode proton-implanted photonic crystal vertical-cavity surface-emitting laser (PC-VCSEL) with high SMSR (> 40 dB) throughout the whole operation current range. This PC-VCSEL, with an aperture of about 10 μm, has ultra-low threshold current of about 1.25 mA. We analyze the L-I curve, emission spectra, near field pattern, divergence angles of photonic crystal VCSELs fabricated with oxide-confined and implant structure. The present results indicate that a VCSEL using proton implantation for current confinement and photonic crystal for optical confinement is a reliable approach to achieve high-power singlemode operation of a VCSEL. This concept will be applied to a 1.3μm VCSEL and other commercial applications in the future.
Liu, Yu-Cheng y 劉育誠. "Design and Analysis of Cavity-Type Waveguide Crossing for Two-Dimensional Photonic Crystal". Thesis, 2013. http://ndltd.ncl.edu.tw/handle/34606131273154422266.
Texto completo龍華科技大學
電機工程系碩士班
101
In high-density optical integrated circuits, waveguide crossings are two straight waveguides crossing each other. In this thesis, the dielectric rod structure of two-dimensional photonic crystals with cubic lattice is used for design and analysis. Dielectric rods used for filters are introduced to form cavities within the waveguide crossing devices. The proposed cavity-type waveguide crossing devices are simulated and analyzed by numerical methods. By the results of simulations, we find that by changing the radii and distances of the filtering dielectric rods, the characteristics of the transmission spectrum of the filter is under controlled. In this thesis, we proposed a novel cavity-type waveguide crossing device for two-dimensional photonic crystal by introducing dielectric-rod filters. By the simulation and analysis, the central frequency of transmission mode is controlled by the distance of the dielectric-rod filters. The full width at half maximum of the transmission mode is also controlled by the radii of the dielectric-rod filters. Therefore, the proposed cavity-type waveguide crossing has the advantages of easily controlling the central frequency and the full width at half maximum of the transmission mode. The results of this research show practical values for the optical integrated circuits in the future.
Liu, Tai-Hung y 劉泰宏. "The study of cavity enhanced acetylene absorption in hollow-core photonic crystal fiber". Thesis, 2011. http://ndltd.ncl.edu.tw/handle/10703078097215164669.
Texto completo逢甲大學
光電研究所
99
A hollow core photonic crystal fiber (HC-PCF) can be used to enhance the light intensity and the interaction length with gas sample. These features are important for nonlinear spectroscopy. However, in case of saturation absorption spectroscopy, the interference fringes originated from the counter propagation of beams inside the HC-PCF usually destroy the nonlinear signal. In this paper, we show that the splicing end of a 35-cm HC-PCF can be served as one end mirror of a fiber cavity with the help of a piezo-electrically actuated mirror serving as the other end mirror. The incident laser frequency was locked to one cavity modes to eliminate the interference effect, and the stability of the laser relative to the cavity was 8.1× 10-8. As a first demonstration of this scheme, we observed the Doppler absorption spectrum of ν1+ν3 P(9) line of acetylene molecule, we also observed a weak saturated absorption, but still have to improved the signal to noise ratio of spectroscopy.
Lee, Shu-ping y 李淑萍. "Design and fabrication of 1.3 um single-mode operation quasi-L2 photonic crystal cavity". Thesis, 2009. http://ndltd.ncl.edu.tw/handle/51708267901944105604.
Texto completo國立中央大學
電機工程研究所
97
Abstract In recent years, photonic crystal defect cavity is widely used to achieve high Purcell factor for high efficiency single photon sources. As the defect cavity is operated at single mode condition, all the photons generated inside the cavity are forced to funnel through this single mode and lead to enhanced coupling efficiency. Previous study shows that a quasi-L2 defect cavity offers not only three clearly resonant modes but also a very small mode-volume, which is essential for high Purcell effect. In this study, we adjust the geometric parameters of quasi-L2 photonic crystal defect cavity, and successfully realize a 1.3??m single mode photonic crystal cavity. For a cavity with quality factor of 1100, the quantum dot luminescence intensity is enhanced over 70 fold, demonstrating its potential of q-L2 photonic crystal cavity for high efficiency single photon sources and lasers.
Wang, Ho-Nien y 王賀年. "Highly Sensitive Open-Cavity Mach-Zehnder Interferometer Sensor Based on Etched Photonic Crystal Fiber". Thesis, 2018. http://ndltd.ncl.edu.tw/handle/k6y284.
Texto completo國立中山大學
光電工程學系研究所
106
Fiber-optic Mach-Zehnder interferometers (MZIs) have been widely proposed due to their advantages such as compact size, high resolution, and high sensing sensitivity. Especially, MZIs with open cavities exhibit ultrahigh refractive index (RI) sensitivities, which can be applied in detecting slight RI variation. Previous studies have proposed several open-cavity MZIs by splicing fibres with a large lateral offset, which are difficult to be fabricated due to the required precise alignment. Some research groups utilize femtosecond (fs) lasers to fabricate open-cavity MZIs, which results in high cost. In this thesis we propose a method to fabricate an open-cavity MZI by splicing an etched photonic crystal fiber (PCF) with a beveled fiber formed by fiber polishing technology. Our manufacturing process is simple, and no high-cost fs lasers are required. The interference properties of our MZI are experimentally demonstrated and discussed with different core sizes and cavity lengthes. It is proved by the increase of the free spectrum range that the liquid indeed can be filled into the open cavity successfully. In sensing properties, our MZI exhibits an ultrahigh RI sensitivity of 10462.7 nm/RIU in the RI range of 1.3330 to 1.3418 and pressure sensitivity of -63.71 pm/psi in the pressure range of 0 to 20 psi. Besides, the corresponding detection limits are -6 4.78 10 RIU and 0.159 psi, respectively, which indicates that our MZI can detect slight RI variation. Moreover, the temperature sensitivity of our MZI is 31.23 pm/℃, and the strain sensitivity of the MZI is 1.06 pm/με and -4 1.04 10 dB/με. As a result, our fabricated MZI sensor possess good potential in environmental parameter sensing.
Fu, Ying-Jhe y 傅英哲. "Magneto-Optical Properties of Single InAs Quantum Dot and Their Coupling to Photonic Crystal Cavity". Thesis, 2014. http://ndltd.ncl.edu.tw/handle/69781590552387154216.
Texto completo國立交通大學
電子工程學系 電子研究所
102
This dissertation mainly researches the photoluminescence characteristics of single quantum dot. We report on the magnetic responses of neutral exciton (X), biexcitons (XX) and positive/negative trions (X+/X-) in single self-assembled InAs/GaAs quantum dots. Unlike the conventional quadratic diamagnetic shift for neutral excitons, the observed X- diamagnetic shifts are small and nonquadratic. In particular, we also observed a reversal in sign of the conventional diamagnetic shift. A theoretical analysis indicates that such anomalous behaviors for X- arise from an apparent change in the electron wave function extent after photon emission due to the strong Coulomb attraction induced by the hole in its initial state. This effect can be very pronounced in small quantum dots, where the electron wave function becomes weakly confined and extended much into the barrier region. When the electrons gradually lose confinement, the magnetic response of X- will transit gradually from the usual quadratic diamagnetic shift to a quartic dependence, and finally into a special paramagnetic regime with an overall negative energy shift. On the other hand, we purpose to study the coupling effect between single quantum dot and photonic crystal cavity, a method for designing H1 photonic crystal cavity is introduced to enhance its quality factor (Q factor). The highest theoretical Q factor of 120,000 is obtained. The Fourier transformation of field distribution shows that the enhancement arises from the component reduction of leaky mode. The Q-factor improvement has also been demonstrated experimentally with the highest value of 11700. Our design could be useful for studying light-matter interaction in H1 cavity as the mode volume only increases slightly. Finally, we successfully demonstrated the strong coupling effect in the H1 photonic crystal cavity embedded single InAs/GaAs quantum dot. Two polariton states arise from the hybridization of the cavity mode and quantum dot, which reflect in the alterations of observed emission characteristics, such as emission wavelength, full width half maximum and intensity. Via analysis, the strongest coupling effect occurs at about 37.75 K, while Rabi splitting is equal to 156.7 μeV.