Relevant bibliographies by topics / Nanoapertures

Academic literature on the topic 'Nanoapertures'

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Published: 4 June 2021
Last updated: 12 February 2022

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Journal articles on the topic "Nanoapertures"

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Onur, Aytac, and Mustafa Turkmen. "Effects of Dielectric Spacer on Absorbance Characteristics of a Dual-Band Nanoaperture Based Perfect Absorber." Materials Science Forum 915 (March 2018): 28–33. http://dx.doi.org/10.4028/www.scientific.net/msf.915.28.

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In this study, a novel perfect absorber (PA) array based on H-shaped nanoapertures for bio-sensing applications in infrared regime is presented. Proposed PA array has a dual-band spectral response, and the locations of these resonances can be adjusted by varying the geometrical dimensions and layer thicknesses of the structure. Nearly unity absorbance is obtained from the PA array for both resonances. The structure design is based on the near field plasmon coupling between the gold film layer and the top nanoaperture array. In this context, the dielectric spacer layer is used to support this plasmon coupling and the gold film on the silicon substrate is also utilized to eliminate the transmittance through the structure. Different dielectric spacers (MgF2, SiO2, and Al2O3) are used to investigate the effects of dielectric spacer on the absorbance characteristics of proposed PA array. High field enhancement is achieved by the interaction of the sharp corners of nanoapertures. The near field enhancements are more than 1500 times at the first resonance frequency, more than 1000 times at the second resonance frequency which is highly desirable for the infrared bio-sensing applications. Due to the high near-field enhancement and nearly unity absorbance, the proposed dual-band PA array with adjustable spectral responses can be useful for bio-sensing applications in infrared regime.
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Tuniz, Alessandro, Henrik Schneidewind, Jan Dellith, Stefan Weidlich, and Markus A. Schmidt. "Nanoapertures without Nanolithography." ACS Photonics 6, no. 1 (December 19, 2018): 30–37. http://dx.doi.org/10.1021/acsphotonics.8b01265.

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Park, Jongkyoon, Hyunsoo Lee, Alexander Gliserin, Kyujung Kim, and Seungchul Kim. "Spectral Shifting in Extraordinary Optical Transmission by Polarization-Dependent Surface Plasmon Coupling." Plasmonics 15, no. 2 (November 16, 2019): 489–94. http://dx.doi.org/10.1007/s11468-019-01058-w.

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AbstractNanoapertures in a metallic film exhibit extraordinary optical transmission (EOT) owing to the surface plasmon resonance. Their transmission properties are known to be dependent on the structural parameters of the nanoapertures. In addition, the polarization of light has also a crucial influence on the transmission spectrum. In this study, we numerically found that the polarization state is a sensitive parameter in plasmonic EOT only when the gap size between triangular nanoapertures is less than ~ 20 nm. For a polarization of the light perpendicular to the axis between the nanoapertures, the optical transmission spectrum is nonlinearly redshifted with decreasing gap size. This spectral shifting of the transmission has potential applications for active optical filters, which can be manipulated by the polarization of light or by adjusting the gap size.
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Gordon, Reuven. "Metal Nanoapertures and Single Emitters." Advanced Optical Materials 8, no. 20 (August 26, 2020): 2001110. http://dx.doi.org/10.1002/adom.202001110.

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Baibakov, Mikhail, Aleksandr Barulin, Prithu Roy, Jean-Benoît Claude, Satyajit Patra, and Jérôme Wenger. "Zero-mode waveguides can be made better: fluorescence enhancement with rectangular aluminum nanoapertures from the visible to the deep ultraviolet." Nanoscale Advances 2, no. 9 (2020): 4153–60. http://dx.doi.org/10.1039/d0na00366b.

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Nanoapertures milled in metallic films called zero-mode waveguides (ZMWs) overcome the limitations of classical confocal microscopes by enabling single molecule analysis at micromolar concentrations with improved fluorescence brightness.
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Jin, Eric X., and Xianfan Xu. "Optical Resonance in Bowtie-Shaped Nanoapertures." Journal of Computational and Theoretical Nanoscience 5, no. 2 (February 1, 2008): 214–20. http://dx.doi.org/10.1166/jctn.2008.2462.

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Rockstuhl, Carsten, Thomas Zentgraf, Todd P. Meyrath, Harald Giessen, and Falk Lederer. "Resonances in complementary metamaterials and nanoapertures." Optics Express 16, no. 3 (2008): 2080. http://dx.doi.org/10.1364/oe.16.002080.

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Han, Donghoon, Garrison M. Crouch, Kaiyu Fu, Lawrence P. Zaino III, and Paul W. Bohn. "Single-molecule spectroelectrochemical cross-correlation during redox cycling in recessed dual ring electrode zero-mode waveguides." Chemical Science 8, no. 8 (2017): 5345–55. http://dx.doi.org/10.1039/c7sc02250f.

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The ability of zero-mode waveguides (ZMW) to guide light into subwavelength-diameter nanoapertures has been exploited for studying electron transfer dynamics in zeptoliter-volume nanopores under single-molecule occupancy conditions.
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Jiao, Xiaojin, Eric M. Peterson, Joel M. Harris, and Steve Blair. "UV Fluorescence Lifetime Modification by Aluminum Nanoapertures." ACS Photonics 1, no. 12 (November 21, 2014): 1270–77. http://dx.doi.org/10.1021/ph500267n.

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Imura, Kohei, Kosei Ueno, Hiroaki Misawa, and Hiromi Okamoto. "Anomalous Light Transmission from Plasmonic-Capped Nanoapertures." Nano Letters 11, no. 3 (March 9, 2011): 960–65. http://dx.doi.org/10.1021/nl103408h.

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Dissertations / Theses on the topic "Nanoapertures"

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Jensen, Russell Andrew. "Optical studies of colloidal quantum dots : optical trapping with plasmonic nanoapertures and thermal recovery from photoinduced dimming." Thesis, Massachusetts Institute of Technology, 2015. http://hdl.handle.net/1721.1/97982.

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Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemistry, 2015.
Cataloged from PDF version of thesis.
Includes bibliographical references (pages 79-91).
This doctoral research has been defined by two main goals. The first has been to develop single colloidal quantum dot (QD) absorption as a new spectroscopic tool for investigating single QD electronic properties, dynamics, and inhomogeneities. In an important step towards achieving this goal, QDs were introduced into the field of optical trapping. Silica coated QDs were optically trapped using bowtie apertures in a thin silver film with low incident flux of 1.56 MW/cm 2 at 1064 nm. Additionally, QDs emitted upon trapping via two-photon excitation from the trapping laser due to strong field enhancement inside the aperture. The second goal of this research has been to investigate processes involved in single QD fluorescence intermittency, or blinking. Specifically, the transition from a nonemissive QD to an emissive QD was investigated using controlled amounts of thermal energy to drive recovery from photoinduced dimming in QD ensembles. Nonlinear thermal recovery was well described by a stretched exponential function, and further analysis yielded an underlying probability distribution of rate constants. Casting the rate constants as a collection of first-order activated processes provided an activation barrier probability distribution with significant density at room temperature thermal energy that peaks at 200 meV before decaying to zero. Progress towards single QD absorption using alternative nanoscale structures, including slot waveguides and circular apertures in silver film, is also discussed. Lastly, self-assembled cyanine-dye nanotubes were monitored during flash dilution with absorption spectroscopy at a high frame rate to separate spectroscopic contributions of the outer layer in double walled and bundled nanotubes.
by Russell Andrew Jensen.
Ph. D.
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Alves, Andrew David Charles, and aalves@unimelb edu au. "Characterisation of Single Ion Tracks for use in Ion Beam Lithography." RMIT University. Applied Sciences, 2008. http://adt.lib.rmit.edu.au/adt/public/adt-VIT20080414.135656.

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To investigate the ultimate resolution in ion beam lithography (IBL) the resist material poly(methyl methacrylate) PMMA has been modified by single ion impacts. The latent damage tracks have been etched prior to imaging and characterisation. The interest in IBL comes from a unique advantage over more traditional electron beam or optical lithography. An ion with energy of the order of 1 MeV per nucleon evenly deposits its energy over a long range in a straight latent damage path. This gives IBL the ability to create high aspect ratio structures with a resolution in the order of 10 nm. Precise ion counting into a spin coated PMMA film on top of an active substrate enabled control over the exact fluence delivered to the PMMA from homogenously irradiated areas down to separated single ion tracks. Using the homogenous areas it was possible to macroscopically measure the sensitivity of the PMMA as a function of the developing parameters. Separated single ion tracks wer e created in the PMMA using 8 MeV F, 71 MeV Cu and 88 MeV I ions. These ion tracks were etched to create voids in the PMMA film. For characterisation the tracks were imaged primarily with atomic force microscopy (AFM) and also with scanning electron microscopy (SEM). The series of studies presented here show that the sensitivity of the resist-developer combination can be tailored to allow the etching of specific single ion tracks. With the ability to etch only the damage track, and not the bulk material, one may experimentally characterise the damage track of any chosen ion. This offers the scientific community a useful tool in the study and fabrication of etched ion tracks. Finally work has been conducted to allow the precise locating of an ion beam using a nanoscale mask and piezoelectrically driven scanning stage. This method of beam locating has been trailed in conjunction with single ion detection in an effort to test the practical limits of ion beam lithography in the single ion realm.
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Schendel, Leonard C. [Verfasser], and Hermann [Akademischer Betreuer] Gaub. "Tether and reinforcement effects on Streptavidin-Biotin, and induced binding in nanoapertures / Leonard C. Schendel ; Betreuer: Hermann Gaub." München : Universitätsbibliothek der Ludwig-Maximilians-Universität, 2020. http://d-nb.info/1214593380/34.

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Baumann, Fabian [Verfasser], and Hermann [Akademischer Betreuer] Gaub. "Atomic force microscopy for high-specificity manipulations of proteins and high-throughput analysis in nanoapertures / Fabian Baumann ; Betreuer: Hermann Gaub." München : Universitätsbibliothek der Ludwig-Maximilians-Universität, 2016. http://d-nb.info/1139640747/34.

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Franich, Rick, and rick franich@rmit edu au. "Monte Carlo Simulation of Large Angle Scattering Effects in Heavy Ion Elastic Recoil Detection Analysis and Ion Transmission Through Nanoapertures." RMIT University. Applied Sciences, 2007. http://adt.lib.rmit.edu.au/adt/public/adt-VIT20080212.121837.

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Heavy Ion Elastic Recoil Detection Analysis (HIERDA) is a versatile Ion Beam Analysis technique well suited to multi-elemental depth profiling of thin layered structures and near-surface regions of materials. An existing limitation is the inability to accurately account for the pronounced broadening and tailing effects of multiple scattering typically seen in HIERDA spectra. This thesis investigates the role of multiple large angle scattering in heavy ion applications such as HIERDA, and seeks to quantify its contribution to experimental output. This is achieved primarily by the development of a computer simulation capable of predicting these contributions and using it to classify and quantify the interactions that cause them. Monte Carlo ion transport simulation is used to generate simulated HIERDA spectra and the results are compared to experimental data acquired using the Time of Flight HIERDA facility at the Australian Nuclear Science and Technology Organisat ion. A Monte Carlo simulation code was adapted to the simulation of HIERDA spectra with considerable attention on improving the modelling efficiency to reduce processing time. Efficiency enhancements have achieved simulation time reductions of two to three orders of magnitude. The simulation is shown to satisfactorily reproduce the complex shape of HIERDA spectra. Some limitations are identified in the ability to accurately predict peak widths and the absolute magnitude of low energy tailing in some cases. The code is used to identify the plural scattering contribution to the spectral features under investigation, and the complexity of plurally scattered ion and recoil paths is demonstrated. The program is also shown to be useful in the interpretation of overlapped energy spectra of elements of similar mass whose signals cannot be reliably separated experimentally. The effect of large angle scattering on the transmission of heavy ions through a nano-scale aperture mask, used to collimate an ion beam to a very small beam spot, is modelled using a version of the program adapted to handle the more complex geometry of the aperture mask. The effectiveness of nano-aperture collimation was studied for a variety of ion-energy combinations. Intensity, energy, and angular distributions of transmitted ions were calculated to quantify the degree to which scattering within the mask limits the spatial resolution achievable. The simulation successfully predicted the effect of misaligning the aperture and the beam, and the result has subsequently been observed experimentally. Transmitted ion distributions showed that the higher energy heavier ions studied are more effectively collimated than are lower energy lighter ions. However, there is still a significant probability of transmission of heavy ions with substantial residual energy beyond the perimeter of the aperture. For the intended application, ion beam lithography, these ions are likely to be problematic. The results indicate that medium energy He ions are the more attractive option, as the residual energy of scattered transmitted ions can be more readily managed by customising the etching process. Continuing research by experimentalists working in this area is proceeding in this direction as a result of the conclusions from this work.
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Shin, Hocheol. "Surface plasmon and its applications in an optical resonator, a superlens, and a nanoaperture /." May be available electronically:, 2007. http://proquest.umi.com/login?COPT=REJTPTU1MTUmSU5UPTAmVkVSPTI=&clientId=12498.

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Pibiri, Enrico Verfasser], and Philip [Akademischer Betreuer] [Tinnefeld. "Entwicklung von DNA-Origami-Nanoadaptern für die Einzekmolekül-Positionierung in Nanoaperturen und der Einfluss eines plasmonischen Systems auf den Förster-Resonanzenergietransfer / Enrico Pibiri ; Betreuer: Philip Tinnefeld." Braunschweig : Technische Universität Braunschweig, 2018. http://d-nb.info/1175815748/34.

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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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Raatz, Nicole. "Strukturierte NV-Qubits durch hochaufgelöste räumlich-selektive Einzelionenimplantation." 2020. https://ul.qucosa.de/id/qucosa%3A75831.

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Hochaufgelöste räumlich-selektive Einzelionenimplantation ist eine Schlüsseltechnologie um Festkörper-Qubits herzustellen. Der in dieser Arbeit verwendete Nanoimplanter benutzt zur Kollimation eines niederenergetischen Ionenstrahls auf Nanometerebene eine Rasterkraftmikroskop-(AFM-)Spitze, welche mit einer Nanoapertur ausgestattet ist. Diese Technik wurde bereits für verschiedene Quantenanwendungen genutzt. In dieser Arbeit wird sie auf die Erzeugung strukturierter Stickstoff-Fehlstellen-(NV-)Zentren weiterentwickelt und optimiert. Dies umfasst unter anderem die Installation eines neuen AFM-Systems, welches den Aufbau mit zwei nützlichen Funktionen aufrüstet: die In-situ-Aperturvermessung und die Untersuchung von Ionen-sensitiven Fotolacken. Weiter werden die zwei wichtigsten limitierenden Faktoren der räumlichen Auflösung durch Simulationen und Experimente detailliert untersucht. Die Ergebnisse geben Aufschluss über optimale Nanoaperturen und Implantationsbedingungen. Streueffekte an der AFM-Spitze und Gitterführungen in Diamant können dadurch maßgeblich reduziert werden. Weiter werden NV-limitierende Effekte durch mehrere Ausheizschritte sowie Ionen- und Elektronenbestrahlungen untersucht. Zuletzt werden erstmals diamantbasierte Ionendetektoren hergestellt, welche mit Kapazität- und Strom-Spannungs-Messungen, durch Röntgenbestrahlung und Ionenstrahl-induzierter Ladung (IBIC) charakterisiert werden. Die Ergebnisse zeigen, dass die angefertigten Detektoren die Bedingungen für eine deterministische Implantation erfüllen, so dass dieses Prinzip zukünftig in den Nanoimplanter integriert werden kann.
High-resolution spatial-selective single ion implantation is a key technology to produce solid state qubits. The nanoimplanter used in this work collimates a low-energy ion beam at the nanometer level using an atomic force microscope (AFM) tip, which is provided with a nanoaperture. This technique has already been used for various quantum applications. In this thesis it is further developed and optimized for the generation of structured nitrogen vacancy (NV) centers. This includes the installation of a new AFM system, which upgrades the setup with two useful functions: in-situ aperture measurement and the investigation of ion sensitive photoresists. Furthermore, the two most significant limiting factors of spatial resolution are studied in detail by simulations and experiments. The results indicate optimized nanoapertures and implantation conditions. Scattering effects at the AFM tip and ion channeling in diamond can be significantly reduced. Moreover, NV-limiting effects are investigated by several heating steps as well as ion and electron irradiations. Finally, novel diamond based ion detectors are manufactured, that are characterized by capacitance and current-voltage measurements, by X-ray irradiation and ion beam induced charge (IBIC). The results show these detectors fulfill the conditions for a deterministic implantation, so that this concept can be integrated into the nanoimplanter in the future.
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Ehtaiba, Jamal Mehemed. "An integrated nanoaperture optical-fiber tweezer for developing single-photon sources." Thesis, 2020. http://hdl.handle.net/1828/11718.

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In this thesis, an approach for developing single-photon sources at the 1550nm wavelength will be demonstrated, based on optical trapping of luminescent upconverting nanoparticles. A single-photon source is a source that emits a single photon at a time, and hence it is a source of quantum bits that constitutes the basic building units in quantum computers and quantum communications. The approach exploits the plasmonic properties of gold films and the waveguiding characteristics of single mode optical fibers (SMFs). We start by planar nanofabrication of subwavelength nanoapertures in a thin gold film based on finite difference time domain simulations for a peak transmission at the wavelength in question. Subsequently, using ultraviolet curable epoxy adhesion material, a nanoaperture patterned on a gold film can be transferred to an SMF tip forming a nanoantenna enhanced optical fiber tweezer (NAFT). As a final step in building the optical tweezer, a test of the capability of the integrated optical fiber tweezer to trap 20 nm, and 30nm polystyrene nanospheres, as well as luminescent upconverting nanoparticles (UCNPs), has been experimentally realized with encouraging results. In addition to the optical trapping of the luminescent nanoparticles, the nano aperture antenna can improve light coupling into the low loss optical fiber guiding channel. Also, it could have a positive influence on enhancing the photon emission rate through the Purcell effect. Furthermore, we have combined NAFT with a low insertion loss wave splitter, a wavelength-division multiplexer (WDM), to allow measuring the 1550nm photon-emission statistics on a cooled superconducting nanowire single-photon detector (SNSPD) at ~ 2.4o K. Eventually, nanoantenna enhanced optical fiber tweezers can play an essential role in optical trapping towards developing single-photon sources and the emerging technology of quantum information processing, computation, and cryptography.
Graduate
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Book chapters on the topic "Nanoapertures"

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Kotnala, Abhay, and Reuven Gordon. "Laser Tweezers Using Nanoapertures in Metal Films." In Encyclopedia of Nanotechnology, 1–12. Dordrecht: Springer Netherlands, 2015. http://dx.doi.org/10.1007/978-94-007-6178-0_100987-1.

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Kotnala, Abhay, and Reuven Gordon. "Laser Tweezers Using Nanoapertures in Metal Films." In Encyclopedia of Nanotechnology, 1753–64. Dordrecht: Springer Netherlands, 2016. http://dx.doi.org/10.1007/978-94-017-9780-1_100987.

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Hong, Koo Kim, Suk Jung Yun, Kim Myungji, Shi Yu, and Xi Yonggang. "Vertical-Dipole Nanoaperture Metal Lens." In 21st Century Nanoscience – A Handbook, 14–1. Boca Raton, Florida : CRC Press, [2020]: CRC Press, 2020. http://dx.doi.org/10.1201/9780429351594-14.

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Conference papers on the topic "Nanoapertures"

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Hwang, Hyunwoo, Won-Sup Lee, No-Cheol Park, Hyunseok Yang, Young-Pil Park, and Kyoung-Su Park. "Enhanced Air-Gap Control for High-Speed Plasmonic Lithography Using Solid Immersion Lens With Sharp-Ridge Nanoaperture." In ASME 2011 International Mechanical Engineering Congress and Exposition. ASMEDC, 2011. http://dx.doi.org/10.1115/imece2011-63336.

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Recently, plasmonic nanolithography is studied by many researchers (1, 2 and 3). This presented a low-cost and high-throughput approach to maskless nanolithography technique that uses a metallic sharp-ridge nanoaperture with a high strong nanometer-sized optical spot induced by surface plasmon resonance. However, these nanometer-scale spots generated by metallic nanoapertures are formed in only the near-field region, which makes it very difficult to pattern above the photoresist surface at high-speeds.
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Zhu, L., M. Annamalai, S. Samudrala, N. Stelmakh, and M. Vasilyev. "Transmission Characteristics of Silver Nanoapertures." In Frontiers in Optics. Washington, D.C.: OSA, 2010. http://dx.doi.org/10.1364/fio.2010.jwa34.

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Cadusch, Jasper J., Timothy D. James, Amir Djalalian-Assl, Timothy J. Davis, and Ann Roberts. "Polarization manipulation with subwavelength nanoapertures." In SPIE NanoScience + Engineering, edited by Allan D. Boardman. SPIE, 2014. http://dx.doi.org/10.1117/12.2060906.

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Alizadehkhaledi, Amirhossein, Adarsh Lalitha Ravindranath, Adriaan L. Frencken, Ali Khademi, Mirali Seyed Shariatdoust, Frank C. J. M. van Veggel, and Reuven Gordon. "Trapping Individual Upconverters Using Rectangle Nanoapertures." In 2018 IEEE 13th Nanotechnology Materials and Devices Conference (NMDC). IEEE, 2018. http://dx.doi.org/10.1109/nmdc.2018.8605733.

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Wang, Yunshan, Xiaojin Jiao, Eric M. Peterson, Joel M. Harris, Kanagasundar Appusamy, Sivaraman Guruswamy, and Steve Blair. "UV fluorescence lifetime modification by aluminum and magnesium nanoapertures." In SPIE Nanoscience + Engineering, edited by Gilles Lérondel, Satoshi Kawata, and Yong-Hoon Cho. SPIE, 2016. http://dx.doi.org/10.1117/12.2237873.

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Kelly, Christopher V. "Nanoapertures for 55 nm Resolution of Membrane Organization and Dynamics." In Biomedical Optics. Washington, D.C.: OSA, 2014. http://dx.doi.org/10.1364/biomed.2014.bs3a.15.

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Wenger, Jérome, Heykel Aouani, Davy Gérard, Steve Blair, Thomas W. Ebbesen, and Hervé Rigneault. "Enhanced fluorescence from metal nanoapertures: physical characterizations and biophotonic applications." In BiOS, edited by Tuan Vo-Dinh and Joseph R. Lakowicz. SPIE, 2010. http://dx.doi.org/10.1117/12.840042.

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Merlo, Juan Manuel, Erwin Martí Panameño, and Luis Arroyo Carrasco. "Nanoapertures near field properties and conditions for the nanoparticles optical trapping." In Frontiers in Optics. Washington, D.C.: OSA, 2006. http://dx.doi.org/10.1364/fio.2006.jwd79.

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Li, Dan, Yuanjie Pang, and Reuven Gordon. "Design and fabrication of resonant coaxial nanoapertures in a gold film." In 2011 IEEE 11th International Conference on Nanotechnology (IEEE-NANO). IEEE, 2011. http://dx.doi.org/10.1109/nano.2011.6144604.

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Yanik, Ahmet A., Ronen Adato, Shyamsunder Erramilli, and Hatice Altug. "Plasmon hybridization in nanoapertures for development of an efficient nanoantenna array." In SPIE NanoScience + Engineering, edited by Mark I. Stockman. SPIE, 2009. http://dx.doi.org/10.1117/12.826672.

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