Relevant bibliographies by topics / Multimode interference coupler

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

Academic literature on the topic 'Multimode interference coupler'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Multimode interference coupler"

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May-Arrioja, D. A., P. LiKamWa, C. Velásquez-Ordóñez, and J. J. Sánchez-Mondragón. "Tunable multimode interference coupler." Electronics Letters 43, no. 13 (2007): 714. http://dx.doi.org/10.1049/el:20071070.

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Maese-Novo, A., R. Halir, S. Romero-García, D. Pérez-Galacho, L. Zavargo-Peche, A. Ortega-Moñux, I. Molina-Fernández, J. G. Wangüemert-Pérez, and P. Cheben. "Wavelength independent multimode interference coupler." Optics Express 21, no. 6 (March 13, 2013): 7033. http://dx.doi.org/10.1364/oe.21.007033.

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Deka, B., and P. P. Sahu. "Transformation relationship of directional coupler with multimode interference coupler and two mode interference coupler." Journal of Optics 38, no. 2 (June 2009): 75–87. http://dx.doi.org/10.1007/s12596-009-0008-7.

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Fan Wang, Jianyi Yang, Limei Chen, Xiaoqing Jiang, and Minghua Wang. "Optical switch based on multimode interference coupler." IEEE Photonics Technology Letters 18, no. 2 (January 2006): 421–23. http://dx.doi.org/10.1109/lpt.2005.863201.

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Sui, Guorong, Fan Liu, Haifei Guo, and Zhi Chen. "Flexible broadband white light multimode interference coupler." Optics Express 29, no. 19 (August 31, 2021): 29730. http://dx.doi.org/10.1364/oe.433260.

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Wu, Ji-Jiang. "A MULTIMODE INTERFERENCE COUPLER WITH EXPONENTIALLY TAPERED WAVEGUIDE." Progress In Electromagnetics Research C 1 (2008): 113–22. http://dx.doi.org/10.2528/pierc08012406.

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Sahu, P. P. "A Tapered Structure for Compact Multimode Interference Coupler." IEEE Photonics Technology Letters 20, no. 8 (April 2008): 638–40. http://dx.doi.org/10.1109/lpt.2008.918906.

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Sahu, P. P. "Compact multimode interference coupler with tapered waveguide geometry." Optics Communications 277, no. 2 (September 2007): 295–301. http://dx.doi.org/10.1016/j.optcom.2007.04.064.

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Wei, Hongzhen, Jinzhong Yu, Zhongli Liu, Xioafeng Zhang, Wei Shi, and Changshui Fang. "Fabrication of 2 × 2 tapered multimode interference coupler." Electronics Letters 36, no. 19 (2000): 1618. http://dx.doi.org/10.1049/el:20001166.

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Sahu, P. P. "Parabolic tapered structure for an ultracompact multimode interference coupler." Applied Optics 48, no. 2 (January 7, 2009): 206. http://dx.doi.org/10.1364/ao.48.000206.

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Dissertations / Theses on the topic "Multimode interference coupler"

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Zheng, Qi. "Performance Characterization of Silicon-On-Insulator (SOI) Corner Turning and Multimode Interference Devices." Thèse, Université d'Ottawa / University of Ottawa, 2012. http://hdl.handle.net/10393/23234.

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Silicon-on-insulator (SOI) technology has become increasingly attractive because of the strong light confinement, which significantly reduces the footprint of the photonic components, and the possibility of monolithically integrating advanced photonic waveguide circuits with complex electronic circuits, which may reduce the cost of photonic integrated circuits by mass production. This thesis is dedicated to numerical simulation and experimental performance measurement of passive SOI waveguide devices. The thesis consists of two main parts. In the first part, SOI curved waveguide and corner turning mirror are studied. Propagation losses of the SOI waveguide devices are accurately measured using a Fabry-Perot interference method. Our measurements verify that the SOI corner turning mirror structures can not only significantly reduce the footprint size, but also reduce the access loss by replacing the curved sections in any SOI planar lightwave circuit systems. In the second part, an optical 90o hybrid based on 4 × 4 multimode interference (MMI) coupler is studied. Its quadrature phase behavior is verified by both numerical simulations and experimental measurements.
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Meyer, Jason T., and Mahmoud Fallahi. "Ultra-compact integrated silicon photonics balanced coherent photodetector." SPIE-INT SOC OPTICAL ENGINEERING, 2016. http://hdl.handle.net/10150/621797.

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In this paper, the performance simulations of a novel ultra-compact balanced coherent photodetector for operation at a wavelength of 1.5 mu m are presented and design proposals for future fabrication processes are provided. It consists of a compact 2x2 MMI that is evanescently coupled into a germanium MSM photodetection layer. The simulations demonstrate dark current less than 10 nA, capacitance less than 20 fF, and optical bandwidth in the 10-30 GHz range. We propose utilizing the simplicity of direct wafer bonding to bond the detection layer to the output waveguides to avoid complicated epitaxial growth issues. This ultra-compact device shows promise as a high-speed, low-cost integrated silicon photonics solution for the telecommunications infrastructure.
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Shi, Yaocheng. "Design, Simulation and Characterization of Some Planar Lightwave Circuits." Doctoral thesis, Kista : KTH School of Information and Communication Technology, 2008. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-4760.

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Paiam, Mohammad Reza. "Applications of multimode interference couplers in wavelength-division multiplexing." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1997. http://www.collectionscanada.ca/obj/s4/f2/dsk3/ftp04/nq23053.pdf.

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Murad, Masoud Kheder. "Integrated high brightness array semiconductor lasers incorporating multimode interference couplers." Thesis, University of Glasgow, 2011. http://theses.gla.ac.uk/4591/.

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The research described work in this thesis is concerned with the development and realisation of high brightness array laser diodes operating in single spatial mode. The fabrication of the high brightness laser devices was carried out on 830 nm GaAs/AlGaAs material system. Broad area lasers were fabricated to evaluate the material quality. The material design was based on the high d/Г concept, by which the optical power is maximised prior to thermal roll-over or the catastrophic optical mirror damage (COMD). A quantum well intermixing (QWI) process was developed for integrating the non absorbing mirrors (NAMs), the gain section, the MMI coupler and the single spatial mode output waveguide. The quantum well intermixing (QWI) was used to fabricate nonabsorbing mirrors (NAMs) with a blue shift of 58 nm. The annealing for the optimum process was 810º C for 90 seconds. The QWI was evaluated using the photoluminescence method, band gap shift of 58 nm was realised. The fabricated NAMs ranged from 30 to 100 μm in length. The gain section length was set at 975 μm. In the passive sections, the MMI and output waveguide are 1 mm long. The total device length was around 2 mm. No COMD was observed in the fabricated devices meaning that the quantum well intermixing has worked well. The propagation loss measurement for 830 nm passive waveguide, intermixed with a QWI blue shifted 58 nm and 9.8 mm long was 4.48 dB/cm. This is comparable to the loss that was measured from broad area laser material, which had a loss of 6.9 dB/cm. Fimmwave and beam propagation method (BPM) were used for the modelling. The results of the modelling for the single mode ridge waveguide were that, a ridge depth of 1.84 μm supported a single mode. The selected ridge width was 2.5 μm. Modelling of a 1x4 MMI array laser and a 1x2 MMI array was undertaken using the beam propagation method (BPM). The optimum lateral spacing of the gain waveguides was found to be in a range of 2.5-3.5 μm for high power operation. In the 1x4 MMI array laser, the phase was modelled. The inner gain sections have a phase difference of π/2 with respect to the outer gain sections, while the 1x2 MMI array laser has zero phase shift between the two gain sections. 1x4 and 1x2 MMI array lasers were fabricated. In the case of 1x4 MMI array laser, different MMI coupler lengths were fabricated. The MMI lengths were between 617 μm and 709 μm. The devices were tested electrically using 10 μs pulses and a 1 KHz repetition rate. They were tested to a Abstract iii current level of 22xIth. The power achieved was > 440 mW in pulsed mode from the single output facet. This power was equivalent to an optical intensity of 17.6 MW/cm2. The threshold current measured for the device was 145 mA. The external quantum efficiency (ηext) was 32.1 %. The MMI array laser device design with an MMI width of 24 μm, length of 617 μm and gain section spacing of 3.5 μm had a strong phase locking up to an applied current of 5.2xIth. The far-field pattern width of the central lobe of the phase locked 1x4 MMI array laser was 2.1 º measured from the array facets side. This value is comparable to the diffraction limited value of 1.96 º calculated simply from (λ/N.p). The quality factor (M2 emitter) for the 2.5 μm wide single ridge emitter was estimated to be close to 1. The beam quality factor of the 1x4 MMI array bar (M2 bar) was estimated to be 1.07. The visibility (V) of the pattern was very close to 1. The phase locked power (P) was 152.0 mW per facet for an operating current of 5.2xIth (Ith=145 mA). The corresponding brightness was 19.6 MW/cm2.sr. The operating wavelength for a 1x4 MMI laser diode array was a 0.822 μm. The single emission wavelength was measured from the four array side with a narrow spectral width (Δλ) of 0.22 nm at the FWHM for an operating current of 5.2xIth. The narrow spectral width of 0.22 nm for the array was a much smaller than that for a ridge waveguide laser. The ridge waveguide laser had a spectral width of a 0.65 nm at FWHM. This spectral width was measured for a current of 200 mA in pulsed mode with a 5 μs pulse width. The lasing spectra of the array showed four individual peaks, when the current was increased to 6.2xIth. At this point, the array is no longer phase locked. The wavelength peaks were as follows: λ1=821.35 nm, λ2=821.59 nm, λ3=821.83 nm and λ4=822.08 nm, respectively. The spectral width (Δλ) was around 0.22 nm at FWHM for the each of the individual peaks. The 1x2 MMI array devices were pulsed to a current level of 30xIth. The output power was around 332 mW from the single output facet. The threshold current was 85 mA. The largest optical output power was realised for the device with an MMI length of 480 μm. The external quantum efficiency was around 33%. The phase relationship between the gain sections for the 1x2 MMI array laser is an identical one (i.e.Ф1=Ф2). The phase locking was achieved in the 1x2 MMI array laser. However, the phase locking was only evident up to 3xIth (Ith=85 mA) CW. The width of the central lobe of the far-field pattern was 4.49 º (equivalent to 1.33x the diffraction limit). There was also a reasonable correlation between the far-field pattern from the measurement and the far-field pattern from the simulation. The quality Abstract iv factor for the emitter (M2 emitter) was 1, while the beam quality factor (M2 bar) of the 1x2 MMI array (bar) was estimated to be 1.33. The visibility (V) of the pattern was estimated to be around 0.5. The lasing spectra showed a single wavelength emission with a peak of 823.55 nm and a very narrow spectral width of 0.3 nm at the FWHM. The optical power at an injection current of 3.2xIth was a mere 60mW CW per facet, which corresponded to a brightness of 5.02 (MW/cm2. sr). The results for a 1x2 MMI laser array indicated that the length of the MMI section promoted the phase locking. An accurately designed MMI length resulted in a narrow spectral width of 0.3 nm at FWHM for an MMI length of 480 μm. The spectral width increased with a reduction of the MMI length. The spectral width was 0.86 nm at FWHM for an MMI length of 465 μm, whereas it increased to 3.1 nm at the FWHM for an MMI length of 444 μm. Therefore, the phase locking and the bandwidth of the 1xN MMI array laser is a self imaging and MMI cavity length dependent.
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Lagali, Neil Satish. "The generalized Mach-Zehnder interferometer using multimode interference couplers for optical communications networks." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 2000. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape4/PQDD_0012/NQ59992.pdf.

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Sunay, Ahmet Sertac. "Analysis And Design Of Passive Microwave And Optical Devices Using The Multimode Interference Technique." Master's thesis, METU, 2005. http://etd.lib.metu.edu.tr/upload/2/12606456/index.pdf.

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The Multimode Interference (MMI) mechanism is a powerful toool used in the analysis and design of a certain class of optical, microwave and millimeter wave devices. The principles of the MMI method and the self-imaging principle is described. Using this method, NXM MMI couplers, MMI splitter/combiners are analyzed. Computer simulations for illustrating the "
Multimode Interference Mechanism"
are carried out. The MMI approach is used to analyze overmoded '
rectangular metallic'
and '
dielectric slab'
type of waveguides and devices. The application of the MMI technique is investigated experimentally by using a metallic waveguide structure operating in the X-band. The construction of the related structure and the related experimental work are reported.
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Xu, Fang. "Silicon cross-connect filters and switches using microring resonator coupled multimode-interference-based waveguide crossings /." View abstract or full-text, 2008. http://library.ust.hk/cgi/db/thesis.pl?ECED%202008%20XU.

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Sánchez, Fandiño Javier Antonio. "Integrated Optical Filters for Microwave Photonic Applications." Doctoral thesis, Universitat Politècnica de València, 2016. http://hdl.handle.net/10251/67690.

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[EN] Microwave photonics (MWP) is a well-established research field that investigates the use of photonic technologies to generate, distribute, process and analyze RF waveforms in the optical domain. Despite its great potential to solve long-standing problems faced by both the microwave and electronics industries, MWP systems are bulky, expensive and consume a lot of power. Integrated microwave photonics (IMWP) is an emerging area of research that promises to alleviate most of these drawbacks through the use of photonic integrated circuits (PIC). In this work, we have aimed at further closing the gap between the worlds of MWP and integrated optics. In particular, we have focused on the design and experimental characterization of PICs with reconfigurable, ring-assisted Mach-Zehnder interferometer filters (RAMZI), and demonstrated its potential use in different IMWP applications. These filters consist of a symmetric MZI loaded with ring resonators, which are coupled to the MZI branches by different optical couplers. The contributions of this thesis can be split into two sections. In the first one, we demonstrate integrated optical couplers and reflectors with variable power splitting and reflections ratios. These exploit the well-known properties of tapered multimode interference couplers (MMI), and their inherent robustness makes them highly suitable for the implementation of both RAMZI and reflective filters. Besides, we study in detail the impact of manufacturing deviations in the performance of a 4x4 MMI-based 90º hybrid, which is a fundamental building block in coherent optical communication systems. In the second section, we demonstrate the use of integrated RAMZI filters for three different IMWP applications, including instantaneous frequency measurement (IFM), direct detection of frequency-modulated signals in a MWP link, as well as in tunable, coherent MWP filters. A theoretical analysis of the limits and trade-offs that exist in photonics-based IFM systems is also provided. Even though these are early proof-of-concept experiments, we hope that further technological developments in the field will finally turn MWP into a commercial reality.
[ES] La fotónica de microondas (MWP) es un campo de investigación que estudia el uso de tecnologías ópticas para generar, distribuir, procesar y analizar señales de RF. A pesar de su gran potencial para resolver algunos de los problemas a los que se enfrentan las industrias electrónica y de microondas, estos sistemas son voluminosos, caros y consumen mucha potencia. La fotónica de microondas integrada (IMWP) es un área emergente que promete solucionar todos estos inconvenientes a través de la utilización de circuitos ópticos integrados (PIC). En esta tesis, hemos pretendido avanzar un poco más en el acercamiento entre estas dos disciplinas. En concreto, nos hemos centrado en el diseño y caracterización experimental de PICs con filtros reconfigurables basados en interferómetros Mach-Zehnder cargados con anillos (RAMZI), y demostrado su potencial uso en diferentes aplicaciones de IMWP. Los filtros RAMZI están hecho básicamente de un MZI simétrico cargado con anillos, los cuales a su vez se acoplan a las ramas del interferómetro a través de distintos acopladores ópticos. Las contribuciones de este trabajo se pueden dividir en dos partes. En la primera, hemos demostrado acopladores y reflectores ópticos integrados con coeficientes de acoplo y reflexión variables. Éstos explotan las propiedades de los acopladores por interferencia multimodal (MMI), y su robustez les hace muy atractivos para la implementación de filtros RAMZI y de tipo reflectivo. Además, hemos analizado el impacto que las tolerancias de fabricación tienen en el rendimiento de un híbrido óptico de 90º basado en un MMI 4x4, el cual es un elemento fundamental en los sistemas de comunicaciones ópticas coherentes. En la segunda parte, hemos demostrado el uso de filtros RAMZI en tres aplicaciones distintas de IMWP. En concreto, hemos utilizado dichos filtros para implementar sistemas de medida de frecuencia instantánea (IFM), detección directa de señales moduladas en frecuencia para enlaces fotónicos, así como en filtros coherentes y sintonizables de MWP. También hemos desarrollado un análisis teórico de las limitaciones y problemas que existen en los sistemas IFM. A pesar de que todos los experimentos realizados han consistido en prototipos para una prueba de concepto, esperamos que futuros avances tecnológicos permitan que la fotónica de microondas se convierta algún día en una realidad comercial.
[CAT] La fotònica de microones (MWP) és un camp d'investigació que estudia l'ús de tecnologies òptiques per a generar, distribuir, processar y analitzar senyals de radiofreqüència. A pesar del seu gran potencial per a resoldre alguns dels problemes als que s'enfronten les indústries electrònica i de microones, estos sistemes son voluminosos, cars i consumixen molta potència. La fotònica de microones integrada (IMWP) és un àrea emergent que promet solucionar tots estos inconvenients a través de la utilització de circuits òptics integrats (PIC). En esta tesi, hem pretés avançar un poc més en l'acostament entre estes dos disciplines. En concret, ens hem centrat en el disseny i caracterització experimental de PICs amb filtres reconfigurables basats en interferòmetres Mach-Zehnder carregats amb anells (RAMZI), i demostrat el seu potencial en diferents aplicacions d' IMWP. Els filtres RAMZI estan fets bàsicament d'un MZI simètric carregat amb anells, els quals, al seu torn, s'acoblen a les branques del interferòmetre a través de distints acobladors òptics. Les contribucions d'este treball es poden dividir en dos parts. En la primera, hem demostrat acobladors i reflectors òptics integrats amb coeficients de transmissió i reflexió variables. Estos exploten les propietats dels acobladors per interferència multimodal (MMI), i la seua robustesa els fa molt atractius per a la implementació de filtres RAMZI i de tipo reflectiu. A més a més, hem analitzat l'impacte que les toleràncies de fabricació tenen en el rendiment d'un híbrid òptic de 90 graus basat en un MMI 4x4, el qual és un element fonamental en els sistemes de comunicacions òptiques coherents. En la segona part, hem demostrat l'ús de filtres RAMZI en tres aplicacions diferents de IMWP. En concret, hem utilitzat estos filtres per a implementar sistemes de mesura de freqüència instantània (IFM), detecció directa de senyals modulades en freqüència per a enllaços fotònics, així com en filtres coherents i sintonitzables de MWP. També hem desenvolupat una anàlisi teòrica de les limitacions i problemes que existixen en els sistemes IFM. A pesar de que tots els experiments realitzats han consistit en prototips per a una prova de concepte, esperem que futurs avanços tecnològics permeten que la fotònica de microones es convertisca algun dia en una realitat comercial.
Sánchez Fandiño, JA. (2016). Integrated Optical Filters for Microwave Photonic Applications [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/67690
TESIS
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Wosinski, Lech. "Technology for photonic components in silica/silicon material structure." Doctoral thesis, KTH, Microelectronics and Information Technology, IMIT, 2003. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-3556.

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The main objectives of this thesis were to develop a lowtemperature PECVD process suitable for optoelectronicintegration, and to optimize silica glass composition forUV-induced modifications of a refractive index in PECVDfabricated planar devices. The most important achievement isthe successful development of a low temperature silicadeposition, which for the first time makes it is possible tofabricate good quality low loss integrated components whilekeeping the temperature below 250oC during the entirefabrication process. Two strong absorption peaks thatappear at1.5 mm communication window due to N-H and Si-H bonds have beencompletely eliminated by process optimization. This openspossibilities for monolithic integration with other,temperature sensitive devices, such as semiconductor lasers anddetectors, or polymer-based structures on the common siliconplatform. PECVD technology for low loss amorphous silicon inapplication to SiO2/Si based photonic crystal structures hasbeen also optimized to remove hydrogen incorporated during thedeposition process, responsible for the porosity of thedeposited material and creation of similar to silica absorptionbands.

Change of the refractive index of germanium doped silicaunder UV irradiation is commonly used for fabrication of UVinduced fiber Bragg gratings. Here we describe our achievementsin fabrication of fiber Bragg gratings and their application todistributed sensor systems. Recently we have built up a laserlab for UV treatment in application to planar technology. Wehave demonstrated the high photosensitivity of PECVD depositedGe-doped glasses (not thermally annealed) even without hydrogenloading, leading to a record transmission suppression of 47dBin a Bragg grating photoinduced in a straight buried channelwaveguide. We have also used a UV induced refractive indexchange to introduce other device modifications or functions,such as phase shift, wavelength trimming and control ofpolarization birefringence.The developed low temperature technology and the UVprocessing form a unique technology platform for development ofnovel integrated functional devices for optical communicationsystems.

A substantial part of the thesis has been devoted tostudying different plasma deposition parameters and theirinfluence on the optical characteristics of fabricatedwaveguides to find the processing window giving the besttrade-off between the deposition rate,chamber temperatureduring the process, optical losses and presence of absorptionbands within the interesting wavelength range. The optimalconditions identified in this study are low pressure (300-400mTorr), high dilution of silane in nitrous oxide and high totalflow (2000 sccm), low frequency (380 KHz) RF source and high RFpower levels (800-1000 W).

The thesis provides better understanding of the plasmareactions during the deposition process. RF Power is the keyparameter for increasing the rate of surface processes so as toaccommodate each atomic layer in the lowest energy statepossible. All the process conditions which favor a moreenergetic ion bombardment (i.e. low pressure, low frequency andhigh power) improve the quality of the material, making it moredense and similar to thermal oxide, but after a certain pointthe positive trend with increasing power saturates. As theenergy of the incoming ion increases, a competing effect setsin at the surface: ion induced damage and resputtering.

Finally, the developed technologies were applied for thefabrication of some test and new concept devices for opticalcommunication systems including multimode interference (MMI)-based couplers/splitters, state-of-the-art arrayed waveguidegrating-based multi/ demultiplexers, the first Bragg gratingassisted MMI-based add-drop multiplexer, as well as moreresearch oriented devices such as a Mach-Zehnder switch basedon silica poling and a Photonic Crystal-based coupler.

Keywords:silica-on-silicon technology, PECVD, plasmadeposition, photonic integrated circuits, planar waveguidedevices, UV Bragg gratings, photosensitivity, arrayed waveguidegratings, multimode interference couplers, add-dropmultiplexers.

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Books on the topic "Multimode interference coupler"

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Multimode Interference Couplers: Design and Applications. Delft Univ Pr, 1994.

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Book chapters on the topic "Multimode interference coupler"

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Weng, Wei-Sung, Yu-Tai Huang, Kun-Yi Lee, Yao-Chang Jeng, Wei-Yu Lee, and Wei-Ching Chuang. "Design of Bended Multimode Interference Demultiplexer with Multi-Sectional Coherent Coupled Bended Waveguides." In Lecture Notes in Electrical Engineering, 129–38. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-04573-3_17.

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Conference papers on the topic "Multimode interference coupler"

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May-Arrioja, D. A., P. LiKamWa, M. Torres-Cisneros, and J. J. Sanchez-Mondragon. "Tunable 3-dB Multimode Interference coupler." In Frontiers in Optics. Washington, D.C.: OSA, 2007. http://dx.doi.org/10.1364/fio.2007.jsua23.

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Tajaddini, Mehdi, and Mohd Zubir Mat Jafri. "Nonlinear multimode interference coupler for biological sensing." In European Conferences on Biomedical Optics, edited by Alex Vitkin and Arjen Amelink. SPIE, 2013. http://dx.doi.org/10.1117/12.2032153.

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May-Arrioja, D. A., P. LiKamWa, J. J. Sanchez-Mondragon, M. Torres-Cisneros, Niklaus Ursus Wetter, and Jaime Frejlich. "Electrically Tunable 2×2 Multimode Interference Coupler." In RIAO∕OPTILAS 2007: 6th Ibero-American Conference on Optics (RIAO); 9th Latin-American Meeting on Optics, Lasers and Applications (OPTILAS). AIP, 2008. http://dx.doi.org/10.1063/1.2926870.

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Wang, Xiaolong, and Ray T. Chen. "Image quality improved 1X8 multimode interference coupler." In Integrated Optoelectronic Devices 2007, edited by Yakov Sidorin and Christoph A. Waechter. SPIE, 2007. http://dx.doi.org/10.1117/12.706291.

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Raghuwanshi, S. K., and Santosh Kumar. "A Multimode interference star coupler with S-bend waveguide." In 2012 International Conference on Computers and Devices for Communication (CODEC). IEEE, 2012. http://dx.doi.org/10.1109/codec.2012.6509301.

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Wan Ahmad Kamil, Wan Maryam, Mohd Zubir Mat Jafri, and Mohammad Adnin Abdul Hassim. "Graphene all-optical sensor based on nonlinear multimode interference coupler." In Nonlinear Optics and its Applications, edited by Anna C. Peacock, Benjamin J. Eggleton, and Neil G. R. Broderick. SPIE, 2018. http://dx.doi.org/10.1117/12.2307341.

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Okayama, H., and M. Kawahara. "Compact Waveguide Polarization Beam Splitter using a Multimode Interference Coupler." In Integrated Photonics Research. Washington, D.C.: OSA, 1995. http://dx.doi.org/10.1364/ipr.1995.ithg20.

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Berger, J., R. Hauffe, and K. Petermann. "Balanced Ti:LiNbO_3 E-field sensor using a multimode interference coupler." In Optical Fiber Sensors. Washington, D.C.: OSA, 1997. http://dx.doi.org/10.1364/ofs.1997.owc40.

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Tajaldini, Mehdi, and Mohd Zubir Mat Jafri. "Arbitrary-ratio power splitter based on nonlinear multimode interference coupler." In NATIONAL PHYSICS CONFERENCE 2014 (PERFIK 2014). AIP Publishing LLC, 2015. http://dx.doi.org/10.1063/1.4915239.

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Tu, Z., Y. W. Huang, H. X. Yi, X. J. Wang, Y. P. Li, L. Li, and W. W. Hu. "A compact SOI polarization beam splitter based on multimode interference coupler." In Asia Communications and Photonics Conference and Exhibition. Washington, D.C.: OSA, 2011. http://dx.doi.org/10.1364/acp.2011.830707.

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