Relevant bibliographies by topics / Nano-optics devices

Academic literature on the topic 'Nano-optics devices'

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Published: 10 December 2022
Last updated: 28 January 2023

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Journal articles on the topic "Nano-optics devices"

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Modak, Niladri, Ankit K. Singh, Shyamal Guchhait, Athira BS, Mandira Pal, and Nirmalya Ghosh. "Weak Measurements in Nano-optics." Current Nanomaterials 5, no. 3 (December 21, 2020): 191–213. http://dx.doi.org/10.2174/2468187310999200723121713.

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Background: Weak measurement involves weak coupling between the system and the measuring device (pointer) enables large amplification and high precision measurement of small physical parameters. The outcome of this special measurement procedure involving nearly mutually orthogonal pre- and post-selection of states in such weakly interacting systems leads to weak value that can become exceedingly large and lie outside the eigenvalue spectrum of the measured observable. This unprecedented ability of weak value amplification of small physical parameters has been successfully exploited for various metrological applications in the optical domain and beyond. Even though it is a quantum mechanical concept, it can be understood using the classical electromagnetic theory of light and thus can be realized in classical optics. Objective: Here, we briefly review the basic concepts of weak measurement and weak value amplification, provide illustrative examples of its implementation in various optical domains. The applications involve measuring ultra-sensitive beam deflections, high precision measurements of angular rotation, phase shift, temporal shift, frequency shift and so forth, and expand this extraordinary concept in the domain of nano-optics and plasmonics. Methods: In order to perform weak value amplification, we have used Gaussian beam and spectral response as the pointer subsequently. The polarization state associated with the pointer is used as pre and post-selection device. Results: We reveal the weak value amplification of sub-wavelength optical effects namely the Goos-Hänchen shift and the spin hall shift. Further, we demonstrate weak measurements using spectral line shape of resonance as a natural pointer, enabling weak value amplification beyond the conventional limit, demonstrating natural weak value amplification in plasmonic Fano resonances and so forth. The discussed concepts could have useful implications in various nano-optical systems to amplify tiny signals or effects. Conclusion: The emerging prospects of weak value amplification towards the development of novel optical weak measurement devices for metrological applications are extensively discussed.
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Karthik, R., G. Umasankar, and K. Thirumurugan. "Study of Optical Properties of Carbon Nanotube and Fabrication of Nano Fiber Optic for Optical Communication." Journal of Nano Research 11 (May 2010): 139–44. http://dx.doi.org/10.4028/www.scientific.net/jnanor.11.139.

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The success of the developed nano-engineering technology will lead to a redefinition of optical device manufacturing and integration and the functional and economic displacement of traditional bulk-optics devices. The discovery of nonlinear optical properties of the Carbon Nanotube (CNT) has paved the way for the research and development of high optical non linearity in CNT based nano optical fiber. In this paper, a novel structure of our proposed high optical non linearity CNT based nano optical fiber has been studied. In addition, a mathematical analysis on a high third-order optical non linearity of CNT based nano optical fiber has been done.
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GUAN Xiao-wei, 管小伟, 吴昊 WU Hao, and 戴道锌 DAI Dao-xin. "Silicon hybrid surface plasmonic nano-optics-waveguide and integration devices." Chinese Journal of Optics and Applied Optics 7, no. 2 (2014): 181–96. http://dx.doi.org/10.3788/co.20140702.0181.

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Sequeira, César A. C. "Editorial for the Special Issue on “Nanoalloy Electrocatalysts for Electrochemical Devices”." Nanomaterials 12, no. 1 (December 31, 2021): 132. http://dx.doi.org/10.3390/nano12010132.

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Nanoscale science and technology dealing with materials synthesis, nanofabrication, nanoprobes, nanostructures, nanoelectronics, nano-optics, nanomechanics, nanodevices, nanobiotechnology, and nanomedicine is an exciting field of research and development in Europe, the United States, and other countries around the world [...]
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Mohapatra, Shyam S., Robert D. Frisina, Subhra Mohapatra, Kevin B. Sneed, Eleni Markoutsa, Tao Wang, Rinku Dutta, et al. "Advances in Translational Nanotechnology: Challenges and Opportunities." Applied Sciences 10, no. 14 (July 16, 2020): 4881. http://dx.doi.org/10.3390/app10144881.

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The burgeoning field of nanotechnology aims to create and deploy nanoscale structures, devices, and systems with novel, size-dependent properties and functions. The nanotechnology revolution has sparked radically new technologies and strategies across all scientific disciplines, with nanotechnology now applied to virtually every area of research and development in the US and globally. NanoFlorida was founded to create a forum for scientific exchange, promote networking among nanoscientists, encourage collaborative research efforts across institutions, forge strong industry-academia partnerships in nanoscience, and showcase the contributions of students and trainees in nanotechnology fields. The 2019 NanoFlorida International Conference expanded this vision to emphasize national and international participation, with a focus on advances made in translating nanotechnology. This review highlights notable research in the areas of engineering especially in optics, photonics and plasmonics and electronics; biomedical devices, nano-biotechnology, nanotherapeutics including both experimental nanotherapies and nanovaccines; nano-diagnostics and -theranostics; nano-enabled drug discovery platforms; tissue engineering, bioprinting, and environmental nanotechnology, as well as challenges and directions for future research.
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Chen, Lijie, Weitao Zhang, Hanlin Zhang, Jiawang Chen, Chaoyang Tan, Shiqi Yin, Gang Li, Yu Zhang, Penglai Gong, and Liang Li. "In-Plane Anisotropic Thermal Conductivity of Low-Symmetry PdSe2." Sustainability 13, no. 8 (April 8, 2021): 4155. http://dx.doi.org/10.3390/su13084155.

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Low-symmetry two-dimensional (2D) materials have exhibited novel anisotropic properties in optics, electronics, and mechanics. Such characteristics have opened up new avenues for fundamental research on nano-electronic devices. In-plane thermal conductivity plays a pivotal role in the electronic performance of devices. This article reports a systematic study of the in-plane anisotropic thermal conductivity of PdSe2 with a pentagonal, low-symmetry structure. An in-plane anisotropic ratio up to 1.42 was observed by the micro-Raman thermometry method. In the Raman scattering spectrum, we extracted a frequency shift from the Ag3 mode with the most sensitivity to temperature. The anisotropic thermal conductivity was deduced by analyzing the heat diffusion equations of suspended PdSe2 films. With the increase in thickness, the anisotropy ratio decreased gradually because the thermal conductivity in the x-direction increased faster than in the y-direction. The anisotropic thermal conductivity provides thermal management strategies for the next generation of nano-electronic devices based on PdSe2.
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Klass, E. V. "Possibilities of Applying Geometric Optics for Calculations of Nano- and Microstructures in Photovoltaic Devices." Optics and Spectroscopy 127, no. 6 (December 2019): 1098–103. http://dx.doi.org/10.1134/s0030400x19120105.

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Xu, Litu, Fang Li, Yahui Liu, Fuqiang Yao, and Shuai Liu. "Surface Plasmon Nanolaser: Principle, Structure, Characteristics and Applications." Applied Sciences 9, no. 5 (February 28, 2019): 861. http://dx.doi.org/10.3390/app9050861.

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Photonic devices are becoming more and more miniaturized and highly integrated with the advancement of micro-nano technology and the rapid development of integrated optics. Traditional semiconductor lasers have diffraction limit due to the feedback from the optical system, and their cavity length is more than half of the emission wavelength, so it is difficult to achieve miniaturization. Nanolasers based on surface plasmons can break through the diffraction limit and achieve deep sub-wavelength or even nano-scale laser emission. The improvement of modern nanomaterial preparation processes and the gradual maturity of micro-nano machining technology have also provided technical conditions for the development of sub-wavelength and nano-scale lasers. This paper describes the basic principles of surface plasmons and nano-resonators. The structure and characteristics of several kinds of plasmonic nanolasers are discussed. Finally, the paper looks forward to the application and development trend of nanolasers.
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Maslov, Volodymyr. "Promising Micro-Nano-Technologies and Materials for Joining Precision Parts of Optics-and-Electronics Devices." Universal Journal of Materials Science 2, no. 4 (April 2014): 77–81. http://dx.doi.org/10.13189/ujms.2014.020402.

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Jahng, Junghoon, Hyuksang Kwon, and Eun Lee. "Photo-Induced Force Microscopy by Using Quartz Tuning-Fork Sensor." Sensors 19, no. 7 (March 29, 2019): 1530. http://dx.doi.org/10.3390/s19071530.

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We present the photo-induced force microscopy (PiFM) studies of various nano-materials by implementing a quartz tuning fork (QTF), a self-sensing sensor that does not require complex optics to detect the motion of a force probe and thus helps to compactly configure the nanoscale optical mapping tool. The bimodal atomic force microscopy technique combined with a sideband coupling scheme is exploited for the high-sensitivity imaging of the QTF-PiFM. We measured the photo-induced force images of nano-clusters of Silicon 2,3-naphthalocyanine bis dye and thin graphene film and found that the QTF-PiFM is capable of high-spatial-resolution nano-optical imaging with a good signal-to-noise ratio. Applying the QTF-PiFM to various experimental conditions will open new opportunities for the spectroscopic visualization and substructure characterization of a vast variety of nano-materials from semiconducting devices to polymer thin films to sensitive measurements of single molecules.
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Dissertations / Theses on the topic "Nano-optics devices"

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Hameed, Nyha Majeed. "Numerical methods for optical forces modeling in nano optics devices : trapping and manipulating nanoparticles." Thesis, Besançon, 2016. http://www.theses.fr/2016BESA2036.

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Cette thèse constitue un ensemble de travaux et de réflexions sur la question de la modélisation d’expériences en nano-optique utilisant la méthode des différences finies dans le domaine fréquentiel (FDFD) et la méthode des différences finies dans le domaine temporel (FDTD). D’abord, un code FDFD bidimensionnel, dédié au calcul de modes propres de guides d’ondes optiques, a été mis en œuvre et testé à travers une comparaison avec des résultats publiés. Dans une deuxième grande partie, nous étudions le piégeage optique de petites particules (de taille microscopique) à l’aide d’une antenne à nano-ouverture papillon (BNA) gravée à l’extrémité d’une sonde de microscope optique métallisée. Le confinement de lumière obtenue à la résonance de la nano-antenne permet un piégeage 3-D des nanoparticules de latex. Une étude systématique a été menée pour quantifier la puissance de la lumière incidente nécessaire pour un piégeage stable. Un bon accord entre les résultats expérimentaux et numériques a été obtenu dans le cas d’une BNA opérant dans l’eau à _ = 1064 nm pour le piégeage de particules de latex de 250 nm de rayon. En outre, les résultats numériques pour de plus petites particules sont présentés et montrent qu’une telle configuration est capable de piéger des particules avec des rayons aussi petits que 30 nm. Troisièmement, nous avons étudié le processus de piégeage optique basé sur l’amélioration du confinement, non seulement du champ électrique comme dans le cas de la BNA, mais aussi du magnétique que peut exhiber l’antenne métallique type diabolo (DA). Cette dernière a été récemment proposée car elle présente une résonance avec un fort confinement magnétique. Nous avons amélioré le design afin qu’une double résonance, électrique et magnétique, ait lieu au centre de la nano-antenne. Ce double confinement a ensuite été exploité pour exalter le gradient de champ au voisinage de l’antenne et ainsi aboutir à de meilleures efficacités de piégeage (moindre puissance). De plus, les résultats des simulations montrent que le processus de piégeage dépend fortement des dimensions des particules et que, pour des géométries particulières, un piégeage sans contact peut être réalisé. Cette structure doublement résonnante ouvre la voie à la conception d’une nouvelle génération de nano-pinces optiques à forte efficacit
This thesis is a set of work and reflections on modeling the experiments in nano-optics by using the finite difference method in the frequency domain (FDFD), and in time domain (FDTD). First, a two-dimensional code FDFD, dedicated to the calculation the eigenmodes of optical waveguides, has been implemented and tested through a comparison with results found in the literature. In a second large part, we study the optical trapping of small particles (of microscopic size) by using a bowtie nanoaperture antenna (BNA) engraved at the end of a metal-coated near-field optical microscope tip. The confinement of light obtained at the resonance of the nano-antenna allows 3-D trapping of latex nanoparticles. A systematic study was conducted to quantify the power of incident light necessary for stable trapping. Good agreement between the experimental and numerical results was obtained in the case of a BNA operating in water at _ = 1064 nm for the trapping of latex particles having a radius of 250 nm-radius. In addition, numerical results for smaller particles are presented and show that such configuration is capable of trapping particles with radii reaching 30 nm. Third, we studied the optical trapping process based on improved confinement of the electric field as in the case of the BNA, but also of the magnetic field, by using a metallic diabolo shape antenna (DA). This latter has been recently proposed because it exhibits resonance with a strong magnetic field confinement. We have improved the design in such a way that a double resonance, electric and magnetic, takes place in the center of the nano-antenna. This dual confinement was then used in order to enhance the field gradient in its vicinity and thus obtain better efficiencies of the trapping (less power). In addition, the simulation results show that the trapping process is greatly dependent of the particles size, and also show that, for specificl geometries, a trapping without contact can be achieved. This doubly resonant structure opens the way to the conception of a new generation of optical nano-tweezers with high efficiency
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Stein, Benedikt. "Plasmonic devices for surface optics and refractive index sensing." Phd thesis, Université de Strasbourg, 2012. http://tel.archives-ouvertes.fr/tel-00849967.

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In this thesis devices for controlling the flow of surface plasmon polaritons are described. Dielectric and metallic nanostructures were designed for this purpose, and characterized by leakage radiation microscopy in real and in reciprocal spaces. Manipulation of surface plasmons by dielectric lenses and gradient index elements is presented, and negative refraction, steering and self-collimation of surface plasmons in one- and two-dimensional plasmonic crystals is demonstrated. The achieved degree of control was applied for routing of nanoparticles by optical forces, as well as for two methods of enhancing the figures of merit of plasmonic refractive index sensors, based on the one hand on Fano resonances natural to leakage radiation microscopy, and on the other hand on anisotropie plasmonic bandstructures.
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Reinke, Charles M. "Design, simulation, and characterization toolset for nano-scale photonic crystal devices." Diss., Georgia Institute of Technology, 2009. http://hdl.handle.net/1853/33932.

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The objective of this research is to present a set of powerful simulation, design, and characterization tools suitable for studying novel nanophotonic devices. The simulation tools include a three-dimensional finite-difference time-domain code adapted for parallel computing that allows for a wide range of simulation conditions and material properties to be studied, as well as a semi-analytical Green's function-based complex mode technique for studying loss in photonic crystal waveguides. The design tools consist of multifunctional photonic crystal-based template that has been simulated with nonlinear effects and measured experimentally, and planar slab waveguide structure that provides highly efficient second harmonic generation is a chip-scale device suitable for photonic integrated circuit applications. The characterization tool is composed of a phase-sensitive measurement system using a lock-in amplifier and high-precision optical stages, suitable for probing the optical characteristics of nanoscale devices. The high signal-to-noise ratio and phase shift data provided by the lock-in amplifier allow for accurate transmission measurements as well as a phase spectrum that contains information about the propagation behavior of the device beyond what is provided by the amplitude spectrum alone.
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Malyarchuk, Viktor. "Near-field spectroscopy of semiconductor device structures and plasmonic crystals." Doctoral thesis, Humboldt-Universität zu Berlin, Mathematisch-Naturwissenschaftliche Fakultät I, 2004. http://dx.doi.org/10.18452/15097.

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Wir erforschen r?umlich Modenprofile in Wellenleitern mit Submikrometerabmessungen. Daf?r wird die optische Nahfeldmikroskopie in Kombination mit durchstimmbaren Laseranregungsquellen eingesetzt. Wir zeigen, wie das Nano-Photolumineszenzsignal von den Facetten von Quantentroglasern benutzt werden kann, um in diesem Bereich Oberfl?chenrekombination und Diffusionsl?ngeunabh?ngig voneinander zu bestimmen. Damit werden wichtige Informationen ?ber Haftstellen und deren Konzentration an Bauelementeoberfl?chen gewonnen. Eigenmoden in quasi-2-dimensionalen plasmonischen Kristallen sowie ihre Bandstruktur werden direkt gemessen und abgebildet. Messungen der Relaxation der Oberfl?chenplasmonanregung in der Raum- und Zeitdom?ne erlauben die Aufkl?rungder mikroskopischen Natur der Oberfl?chenplasmonemission.
Methods of the near-field spectroscopy combined with tunable laser excitation was used in order to perform investigation of the modeprofiles of submicron-sized waveguides in semiconductor device lasers. It was shown that the nano-photoluminescence signal at facets of a quantum well laser can be used to obtain surface recombination velocity and diffusion length independently and provide important information about concentration of trap-like defect states. Eigenmodes of the quasi-two-dimensional plasmonic crystals as well as their dispersion relations were directly mapped. The temporal and spatial domain measurement of the damping time of the surface plasmon excitation allow to reveal microscopic origins of surface plasmon radiation in such suchstructures.
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Wang, Wei 1983 July 24. "Plasmonic properties of subwavelength structures and their applications in optical devices." Thesis, 2010. http://hdl.handle.net/2152/ETD-UT-2010-12-2243.

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A metallic hole array of a rectangular converging-diverging channel (RCDC) shape exhibits extraordinary transmission for wavelengths larger than the periodicity of the holes. We use a three-dimensional (3D) finite element method to analyze the transmission characteristics of two-dimensional metallic hole arrays (2D-MHA) with RCDC. For a straight channel MHA, when the aperture size is reduced, the transmission peaks have a blue-shift. The same result is observed for a smaller gap throat for the RCDC structure. For the rectangular holes with a high length-width ratio, a similar blue-shift in the transmission peaks as well as a narrower full width at half maximum (FWHM) are observed. The asymmetry from the rectangular shape gives this structure high selectivity for light with different polarizations. Furthermore, the RCDC shape gives extra degrees of geometrical variables to 2D-MHA for tuning the location of the transmission peak and the FWHM. Tunable extraordinary transmission via changing temperature of a porous metallic layer on top of a thin layer of dielectric strontium titanate (STO) is then studied. The metallic layer has a through-hole array and each hole has a circular converging-diverging channel (CDC) shape, which induces the excitation of surface plasmon polaritons (SPPs) and then results in a controllable extraordinary optical transmission in the terahertz (THz) frequency range. We use a three-dimensional (3D) finite element method to analyze the transmission characteristics of the structure. Location and magnitude of the transmission peaks can be adjusted by the hole size, converging angle, and thicknesses of metal and STO layers. Remarkably, the suggested structure presents a strong transmission dependency on temperature, which offers a new approach to actively and externally tune the transmission. Currently, the performances of thin film solar cells are limited by poor light absorption and carrier collection. In this research, large, broadband, and polarization-insensitive light absorption enhancement is realized via integrating with unique metallic nanogratings. Through simulation, three possible mechanisms are identified to be responsible for such an enormous enhancement. A test for totaling the absorption over the solar spectrum shows an up to ~30% broadband absorption enhancement when comparing to bare thin film cells. Overall performance of a thin film solar cell is determined by the efficiency of conversing photons to electrons that include light absorption, carrier generation and carrier collection processes. Photon management via hybrid designing has been emerging as a powerful means to further boost the conversion efficiency. Here a new nanograting solar cell design, which can be universal and a new solar cell platform technology, is proposed with goals to achieve large enhancement on broadband light absorption and carrier generation, most importantly, under the much reduced usage of active and non-earth-abundant materials. A test for the short circuit current density in CuIn[subscript x]Ga([subscript 1-x])Se₂ (CIGS) thin film solar cells shows an up to ~250% enhancement when comparing to the corresponding bare thin film cells. Besides that, by placing metal strips on top of the nanograting, which act as the top electrode, this design is able to reduce the use of non-earth-abundant materials such as indium that is normally used in both active and transparent conducting materials.
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Gai, Xin. "Nano-photonic devices fabricated from chalcogenide glasses." Phd thesis, 2012. http://hdl.handle.net/1885/150943.

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Chalcogenide glasses have been widely used for all-optical processing. Our team identified a particular chalcogenide glass, with composition Ge{u2081}{u2081}.{u2085}As{u2082}{u2084}Se{u2086}{u2084}.{u2085} (Ge{u2081}{u2081}.{u2085}), as having very the best properties for nonlinear waveguides. The material has a nonlinear refractive index about three times higher than ASZS3 and negligible two photon and free carrier absorptions. In particular, its optical properties have been shown to be thermally and optically stable unlike most chalcogenide glasses and thin films, and this is important, for example, if the photonic devices are to be stable enough to make structures that employ high-Q resonances as part of their optical response. The main goal of the research described in this thesis was to establish the feasibility of producing high performance waveguide devices with extreme nonlinearity made from chalcogenide glass as a route to high-density photonic chips for all-optical signal processing. Highly nonlinear dispersion-engineered nanowires and photonic crystal resonant cavities are examples of structures that can enhance the overall nonlinear response of the device and were both successfully fabricated in Geri.s glass films patterned using E-beam lithography (EBL) and inductively coupled plasma (lCP) etching. A record value of nonlinearity of 135,OOOW{u207B}{u2091}km{u207B}{u2091} was measured for Gen.s nanowires and this is the highest value ever reported for a glass waveguide and is more than one order higher than achieved using the ASZS3 rib waveguide platform commonly we commonly use for all-optical processing. The nonlinearity of these Gens nanowires is, in fact, comparable with that achieved from Si nanowires with the advantage that the chalcogenide glass has negligible two-photon absorption (TPA) and no free carrier absorption (FCA) allowing ultra-fast nonlinear processing without degradation due to those parasitic effects. We also showed that polarization independent (P-I) nanowires could be produced with negligible differences in dispersion (and effective index) between the TM and TE modes. To achieve this square Gens nanowires were fully embedded in a silica cladding. In our experiments we showed that the four wave mixing (FWM) efficiency and supercontinuurn spectra generated using TE and TM polarizations were essentially identical. Any small differences could be attributed to the residual polarization dependent losses due to the larger scattering for the TE mode which interacts more strongly with the side-wall roughness induced during etching. In practice this is not, however, a serious limitation because the device length can be very small. We studied competition between stimulated Raman scattering (SRS) on FWM in highly nonlinear waveguides experimentally using both in ASZS3 rib waveguide and Gens nanowires and analysed the observed phenomena systematically using numerical modelling. We identified the contributions from Raman scattering and FWM in terms of a modification to the gain and phase mismatching conditions. It was shown that SRS substantially enhances the gain close to the Stokes (and anti-Stokes via FWM) frequency but due to its affect on FWM phase matching it also results in a significant drop in FWM conversion at frequency shifts just beyond the Raman band. As a result FWM in these glasses will generally only be efficient when the frequency difference between the pump and signal waves is smaller than the Stokes shift. We were able to demonstrate this conclusively for Ge{u2081}{u2081}.{u2085} nanowires. Fortunately this still provides enough bandwidth for FWM to be used in telecommunications signal processing across the full S-Cand L-bands. We showed that near-zero anomalous dispersion Ge{u2081}{u2081}.{u2085} nanowires could be used for the generation of high quality correlated photon pairs by spontaneous FWM at a very large frequency detuning from the pump so that the noise produced by stimulated Raman scattering would be absent. We also described an approach for fabricating the near-zero dispersion waveguides essential to implement the design. High Q photonic crystal cavities were fabricated from air suspended AMTlR-l glass membrane by EBL. In collaboration with researchers at Sydney University, a post-tuning method utilizing the photosensitivity of glass was then used to create a microcavity. However, the bistable switching of these cavities was dominated by slow nonlinear processes such as thermal heating possibly with a contribution from TPA in this particular glass rather than the Kerr effect. In this respect the observation of bistability involved mechanisms similar to those present in silicon photonic crystal cavities. To overcome this we designed and fabricated a photonic crystal cavity from Ge{u2081}{u2081}.{u2085} chalcogenide glass fully embedded in an index matched cladding to enhance the thermal conduction from the cavity. We used 3D FDTD simulations to show that narrowing the photonic crystal waveguide (to{u2248}WO.54) could lead to resonances with very high Q-factors in a PhC slab made from Ge{u2081}{u2081}.{u2085}, completely embedded in a cladding with the index of silica. According to our simulations a Q-factor of over 20 million could be achieved using such a design. We successfully fabricated PhC heterostructure resonators with graded reflectivity mirrors achieving an intrinsic Q factor of >750,000 which compares favourably with a value of 1,700,000 predicted from modeling of a completely ideal structure. This represents the highest Q-factor ever demonstrated in a chalcogenide PhC and is competitive with values achieved in air-clad silicon membranes with a much higher index contrast. Whilst clear bistable switching could be observed in these cavities probed with CW light, thermal nonlinearities still dominated in these experiments.
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Jiang, Wei Chen Ray T. "Wavelength-selective micro- and nano-photonic devices for wavelength division multiplexing networks." 2005. http://repositories.lib.utexas.edu/bitstream/handle/2152/1581/jiangw09150.pdf.

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Jiang, Wei. "Wavelength-selective micro- and nano-photonic devices for wavelength division multiplexing networks." Thesis, 2005. http://hdl.handle.net/2152/1581.

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Rahaman, Mahfujur. "Micro and Nano Raman Investigation of Two-Dimensional Semiconductors towards Device Application." 2018. https://monarch.qucosa.de/id/qucosa%3A71149.

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Recent advances in nanoscale characterization and device fabrications have opened up opportunities for layered semiconductors in nanoelectronics and optoelectronics. Due to strong confinement in monolayer thickness, physical properties of this materials are greatly influenced by parameters such as strain, defects, and doping at the nanoscale. Therefore, understanding the effect of this parameters on layered semiconductors is the prerequisite for any device application. In this doctoral thesis, impact of such parameters on the optical properties of layered semiconductors are studied in nanoscale. MoS2, the most famous transition metal dechalcogenide (TMDC) (n-type semiconductor), and p-type GaSe, a member of metal monochalcogenide (MMC) are investigated in this work. Finally, in outlook, a device made of p-type few layer GaSe and n-type 1L-MoS2 is discussed.
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Books on the topic "Nano-optics devices"

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Ohtsu, Motoichi. Handbook of Nano-Optics and Nanophotonics. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013.

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Ohtsu, Motoichi. Progress in Nano-Electro-Optics II: Novel Devices and Atom Manipulation. Berlin, Heidelberg: Springer Berlin Heidelberg, 2004.

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Applied optics fundamentals and device applications: Nano, MOEMS, and biotechnology. Boca Raton, FL: Taylor & Francis, 2011.

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G, Johnson Eric, Nordin Gregory P, and Society of Photo-optical Instrumentation Engineers., eds. Micromachining technology for micro-optics and nano-optics II: 27-29 January 2004, San Jose, California, USA. Bellingham, Washington, USA: SPIE, 2004.

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Pacific Rim Conference on Lasers and Electro-Optics (5th 2003 Taipei, Taiwan). CLEO/Pacific Rim 2003: The 5th Pacific Rim Conference on Lasers and Electro-Optics = Di wu jie huan Taiping yang lei she yu guang dian yan tao hui : proceedings : December 15-19, 2003, the Grand Hotel, Taipei, Taiwan : photonics lights innovation : from nano-structures and devices to systems and networks. Piscataway, New Jersey: IEEE, 2003.

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Jürgen, Popp, and SpringerLink (Online service), eds. Optical Nano- and Microsystems for Bioanalytics. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012.

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Wang, Shifa, Hua Yang, Zao Yi, Steven Wu, and Tao Xian, eds. Micro-Nano Optics and Photocatalysis Materials, Devices, and Applications. Frontiers Media SA, 2022. http://dx.doi.org/10.3389/978-2-88976-984-1.

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(Editor), Eric G. Johnson, Gregory P. Nordin (Editor), and Thomas J. Suleski (Editor), eds. Micromachining Technology for Micro-optics and Nano-optics IV (Proceedings of SPIE). SPIE-International Society for Optical Engine, 2006.

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Ohtsu, Motoichi. Handbook of Nano-Optics and Nanophotonics. Springer, 2013.

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Ohtsu, Motoichi. Handbook of Nano-Optics and Nanophotonics. Springer, 2013.

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Book chapters on the topic "Nano-optics devices"

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Gonokami, M., H. Akiyama, and M. Fukui. "Near-Field Imaging of Quantum Devices and Photonic Structures." In Nano-Optics, 237–86. Berlin, Heidelberg: Springer Berlin Heidelberg, 2002. http://dx.doi.org/10.1007/978-3-540-45273-7_9.

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Ohtsu, Motoichi, and Hirokazu Hori. "Diagnostics and Spectroscopy of Photonic Devices and Materials." In Near-Field Nano-Optics, 179–208. Boston, MA: Springer US, 1999. http://dx.doi.org/10.1007/978-1-4615-4835-5_6.

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Ohtsu, Motoichi. "Toward Nano-Photonic Devices." In Near-field Nano/Atom Optics and Technology, 193–215. Tokyo: Springer Japan, 1998. http://dx.doi.org/10.1007/978-4-431-67937-0_10.

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Manley, Phillip, Sven Burger, Frank Schmidt, and Martina Schmid. "Design Principles for Plasmonic Nanoparticle Devices." In Progress in Nonlinear Nano-Optics, 223–47. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-12217-5_13.

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Yan, Yongli, and Yong Sheng Zhao. "Design, Fabrication, and Optoelectronic Performance of Organic Building Blocks for Integrated Nanophotonic Devices." In Nano-Optics and Nanophotonics, 181–205. Berlin, Heidelberg: Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-662-45082-6_8.

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Ohtsu, Motoichi. "Diagnosing Semiconductor Nano-Materials and Devices." In Near-field Nano/Atom Optics and Technology, 153–92. Tokyo: Springer Japan, 1998. http://dx.doi.org/10.1007/978-4-431-67937-0_9.

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Sangu, Suguru, Kiyoshi Kobayashi, Akira Shojiguchi, Tadashi Kawazoe, and Motoichi Ohtsu. "Theory and Principles of Operation of Nanophotonic Functional Devices." In Handbook of Nano-Optics and Nanophotonics, 187–250. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-31066-9_6.

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Yatsui, Takashi, Wataru Nomura, Gyu-Chul Yi, and Motoichi Ohtsu. "Integration and Evaluation of Nanophotonic Devices Using Optical Near Field." In Handbook of Nano-Optics and Nanophotonics, 599–642. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-31066-9_16.

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Suzuki, Akiyoshi. "Advances in Optics and Exposure Devices Employed in Excimer Laser/EUV Lithography." In Handbook of Laser Micro- and Nano-Engineering, 1–42. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-319-69537-2_7-1.

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Suzuki, Akiyoshi. "Advances in Optics and Exposure Devices Employed in Excimer Laser/EUV Lithography." In Handbook of Laser Micro- and Nano-Engineering, 753–93. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-63647-0_7.

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Conference papers on the topic "Nano-optics devices"

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Rana, Farhan. "Graphene Nano-Optics and Plasmonics: Physics and Devices." In Integrated Photonics Research, Silicon and Nanophotonics. Washington, D.C.: OSA, 2014. http://dx.doi.org/10.1364/iprsn.2014.jm3b.5.

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Liu, Dajian, Shipeng Wang, and Daoxin Dai. "Reconfigurable photonic integrated devices on silicon." In Nanophotonics and Micro/Nano Optics IV, edited by Zhiping Zhou and Kazumi Wada. SPIE, 2018. http://dx.doi.org/10.1117/12.2503374.

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Zhou, Zhiping, and Lu Liu. "Subwavelength grating devices for optical on-chip multiplexing." In Nanophotonics and Micro/Nano Optics IV, edited by Zhiping Zhou and Kazumi Wada. SPIE, 2018. http://dx.doi.org/10.1117/12.2503322.

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Li, Bin, Bo Tang, Yan Yang, Peng Zhang, Ruonan Liu, Bin Zhao, Zhihua Li, and Bing Bai. "Study on silicon photonic devices for photonic neural network." In Nanophotonics and Micro/Nano Optics VI, edited by Zhiping Zhou, Kazumi Wada, and Limin Tong. SPIE, 2020. http://dx.doi.org/10.1117/12.2573368.

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Sugimoto, Yoshimasa, Hitoshi Nakamura, and Kiyoshi Asakawa. "2D Semiconductor-Based Photonic Crystals for Nano-Integrated Optics." In 2002 International Conference on Solid State Devices and Materials. The Japan Society of Applied Physics, 2002. http://dx.doi.org/10.7567/ssdm.2002.g-5-2.

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Chen, Xia, Milan M. Milosevic, Xingshi Yu, Antoine F. J. Runge, Ali Z. Khokhar, Sakellaris Mailis, David J. Thomson, et al. "Germanium implanted photonic devices for post-fabrication trimming and programmable circuits." In Nanophotonics and Micro/Nano Optics IV, edited by Zhiping Zhou and Kazumi Wada. SPIE, 2018. http://dx.doi.org/10.1117/12.2503224.

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quansheng, Sun, Junli Wang, Lixiang Wu, and Gaofeng Wang. "Trade-offs between stress control and blister avoidance in MEMS devices." In Micro- and Nano-Optics, Catenary Optics, and Subwavelength Electromagnetics, edited by Reinhart Poprawe, Bin Fan, Xiong Li, Min Gu, Mingbo Pu, and Xiangang Luo. SPIE, 2019. http://dx.doi.org/10.1117/12.2506757.

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Shah, Aqib Raza, Sumbel Ijaz, Muhammad Zubair, Muhammad Qasim Mehmood, and Yehia Massoud. "Reconfigurable meta-devices platform based on stimuli-responsive materials." In Nanophotonics, Micro/Nano Optics, and Plasmonics VIII, edited by Zhiping Zhou, Kazumi Wada, Limin Tong, Zheyu Fang, and Takuo Tanaka. SPIE, 2023. http://dx.doi.org/10.1117/12.2644786.

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Du, Xiaoqing, Shaoli Cui, xueyan wang, Jun Bao, and Lu Li. "Preparation and properties of CVD-graphene/AgNWs hybrid transparent electrodes for the application of flexible optoelectronic devices." In Optoelectronics and Micro/nano-optics, edited by Min Qiu, Min Gu, Xiaocong Yuan, and Zhiping Zhou. SPIE, 2017. http://dx.doi.org/10.1117/12.2286009.

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Dong, Guoyan. "Design and application of photonic devices based on photonic crystal near Dirac point." In Nanophotonics and Micro/Nano Optics IV, edited by Zhiping Zhou and Kazumi Wada. SPIE, 2018. http://dx.doi.org/10.1117/12.2327082.

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