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Artykuły w czasopismach na temat „Nanoapertures”

Autor: Grafiati
Data publikacji: 4 czerwca 2021
Data aktualizacji: 12 lutego 2022

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1

Onur, Aytac, i Mustafa Turkmen. "Effects of Dielectric Spacer on Absorbance Characteristics of a Dual-Band Nanoaperture Based Perfect Absorber". Materials Science Forum 915 (marzec 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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2

Tuniz, Alessandro, Henrik Schneidewind, Jan Dellith, Stefan Weidlich i Markus A. Schmidt. "Nanoapertures without Nanolithography". ACS Photonics 6, nr 1 (19.12.2018): 30–37. http://dx.doi.org/10.1021/acsphotonics.8b01265.

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3

Park, Jongkyoon, Hyunsoo Lee, Alexander Gliserin, Kyujung Kim i Seungchul Kim. "Spectral Shifting in Extraordinary Optical Transmission by Polarization-Dependent Surface Plasmon Coupling". Plasmonics 15, nr 2 (16.11.2019): 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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4

Gordon, Reuven. "Metal Nanoapertures and Single Emitters". Advanced Optical Materials 8, nr 20 (26.08.2020): 2001110. http://dx.doi.org/10.1002/adom.202001110.

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5

Baibakov, Mikhail, Aleksandr Barulin, Prithu Roy, Jean-Benoît Claude, Satyajit Patra i 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, nr 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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6

Jin, Eric X., i Xianfan Xu. "Optical Resonance in Bowtie-Shaped Nanoapertures". Journal of Computational and Theoretical Nanoscience 5, nr 2 (1.02.2008): 214–20. http://dx.doi.org/10.1166/jctn.2008.2462.

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7

Rockstuhl, Carsten, Thomas Zentgraf, Todd P. Meyrath, Harald Giessen i Falk Lederer. "Resonances in complementary metamaterials and nanoapertures". Optics Express 16, nr 3 (2008): 2080. http://dx.doi.org/10.1364/oe.16.002080.

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8

Han, Donghoon, Garrison M. Crouch, Kaiyu Fu, Lawrence P. Zaino III i Paul W. Bohn. "Single-molecule spectroelectrochemical cross-correlation during redox cycling in recessed dual ring electrode zero-mode waveguides". Chemical Science 8, nr 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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9

Jiao, Xiaojin, Eric M. Peterson, Joel M. Harris i Steve Blair. "UV Fluorescence Lifetime Modification by Aluminum Nanoapertures". ACS Photonics 1, nr 12 (21.11.2014): 1270–77. http://dx.doi.org/10.1021/ph500267n.

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10

Imura, Kohei, Kosei Ueno, Hiroaki Misawa i Hiromi Okamoto. "Anomalous Light Transmission from Plasmonic-Capped Nanoapertures". Nano Letters 11, nr 3 (9.03.2011): 960–65. http://dx.doi.org/10.1021/nl103408h.

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11

Lee, Jaehak, Suyeon Yang, Jihye Lee, Jun-Hyuk Choi, Yong-Hee Lee, Jung H. Shin i Min-Kyo Seo. "Extraordinary optical transmission and second harmonic generation in sub–10-nm plasmonic coaxial aperture". Nanophotonics 9, nr 10 (18.04.2020): 3295–302. http://dx.doi.org/10.1515/nanoph-2020-0066.

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AbstractRecent development in nanofabrication technology has enabled the fabrication of plasmonic nanoapertures that can provide strong field concentrations beyond the diffraction limit. Further utilization of plasmonic nanoaperture requires the broadband tuning of the operating wavelength and precise control of aperture geometry. Here, we present a novel plasmonic coaxial aperture that can support resonant extraordinary optical transmission (EOT) with a peak transmittance of ~10% and a wide tuning range over a few hundred nanometers. Because of the shadow deposition process, we could precisely control the gap size of the coaxial aperture down to the sub–10-nm scale. The plasmonic resonance of the SiNx/Au disk at the center of the coaxial aperture efficiently funnels the incident light into the sub–10-nm gap and allows strong electric field confinement for efficient second harmonic generation (SHG), as well as EOT. In addition to the experiment, we theoretically investigated the modal properties of the plasmonic coaxial aperture depending on the structural parameters and correlation between EOT and SHG through finite-difference time-domain simulations. We believe that our plasmonic coaxial apertures, which are readily fabricated by the nanoimprinting process, can be a versatile, practical platform for enhanced light–matter interaction and its nonlinear optical applications.
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12

Burouni, Narges, Erwin Berenschot, Miko Elwenspoek, Edin Sarajlic, Pele Leussink, Henri Jansen i Niels Tas. "Wafer-scale fabrication of nanoapertures using corner lithography". Nanotechnology 24, nr 28 (21.06.2013): 285303. http://dx.doi.org/10.1088/0957-4484/24/28/285303.

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13

Onuta, Tiberiu-Dan, Matthias Waegele, Christopher C. DuFort, William L. Schaich i Bogdan Dragnea. "Optical Field Enhancement at Cusps between Adjacent Nanoapertures". Nano Letters 7, nr 3 (marzec 2007): 557–64. http://dx.doi.org/10.1021/nl0621600.

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14

Gorodetski, Yuri, Nir Shitrit, Itay Bretner, Vladimir Kleiner i Erez Hasman. "Observation of Optical Spin Symmetry Breaking in Nanoapertures". Nano Letters 9, nr 8 (12.08.2009): 3016–19. http://dx.doi.org/10.1021/nl901437d.

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15

Schön, Peter, Nicolas Bonod, Eloïse Devaux, Jérôme Wenger, Hervé Rigneault, Thomas W. Ebbesen i Sophie Brasselet. "Enhanced second-harmonic generation from individual metallic nanoapertures". Optics Letters 35, nr 23 (30.11.2010): 4063. http://dx.doi.org/10.1364/ol.35.004063.

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16

Heucke, Stephan F., Elias M. Puchner, Stefan W. Stahl, Alexander W. Holleitner, Hermann E. Gaub i Philip Tinnefeld. "Nanoapertures for AFM-based single-molecule force spectroscopy". International Journal of Nanotechnology 10, nr 5/6/7 (2013): 607. http://dx.doi.org/10.1504/ijnt.2013.053529.

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17

Heucke, Stephan F., Fabian Baumann, Guillermo P. Acuna, Philip M. D. Severin, Stefan W. Stahl, Mathias Strackharn, Ingo H. Stein, Philipp Altpeter, Philip Tinnefeld i Hermann E. Gaub. "Placing Individual Molecules in the Center of Nanoapertures". Nano Letters 14, nr 2 (17.06.2013): 391–95. http://dx.doi.org/10.1021/nl401517a.

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18

Jiao, Xiaojin, Yunshan Wang i Steve Blair. "UV fluorescence enhancement by Al and Mg nanoapertures". Journal of Physics D: Applied Physics 48, nr 18 (10.04.2015): 184007. http://dx.doi.org/10.1088/0022-3727/48/18/184007.

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19

Chen, Yang, Jie Gao i Xiaodong Yang. "Chiral Metamaterials of Plasmonic Slanted Nanoapertures with Symmetry Breaking". Nano Letters 18, nr 1 (8.12.2017): 520–27. http://dx.doi.org/10.1021/acs.nanolett.7b04515.

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20

Jiang, Quanbo, Benoît Rogez, Jean-Benoît Claude, Guillaume Baffou i Jérôme Wenger. "Temperature Measurement in Plasmonic Nanoapertures Used for Optical Trapping". ACS Photonics 6, nr 7 (4.06.2019): 1763–73. http://dx.doi.org/10.1021/acsphotonics.9b00519.

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21

Champi, Hipólito A. Arredondo, Rina H. Bustamante i Walter J. Salcedo. "Optical enantioseparation of chiral molecules using asymmetric plasmonic nanoapertures". Optical Materials Express 9, nr 4 (13.03.2019): 1763. http://dx.doi.org/10.1364/ome.9.001763.

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22

Chen, Yang, Jie Gao i Xiaodong Yang. "Chiral Grayscale Imaging with Plasmonic Metasurfaces of Stepped Nanoapertures". Advanced Optical Materials 7, nr 6 (18.01.2019): 1801467. http://dx.doi.org/10.1002/adom.201801467.

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23

Khademhosseinieh, Bahar, Gabriel Biener, Ikbal Sencan, Ting-Wei Su, Ahmet F. Coskun i Aydogan Ozcan. "Lensfree sensing on a microfluidic chip using plasmonic nanoapertures". Applied Physics Letters 97, nr 22 (29.11.2010): 221107. http://dx.doi.org/10.1063/1.3521390.

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24

Luo, Xian-Gang, Ming-Bo Pu, Xiong Li i Xiao-Liang Ma. "Broadband spin Hall effect of light in single nanoapertures". Light: Science & Applications 6, nr 6 (6.01.2017): e16276-e16276. http://dx.doi.org/10.1038/lsa.2016.276.

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25

Zhang, Z. J., R. W. Peng, Z. Wang, F. Gao, X. R. Huang, W. H. Sun, Q. J. Wang i Mu Wang. "Plasmonic antenna array at optical frequency made by nanoapertures". Applied Physics Letters 93, nr 17 (27.10.2008): 171110. http://dx.doi.org/10.1063/1.3010741.

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26

Kelly, Christopher V., David Holowka, Barbara Baird i Harold G. Craighead. "Arrays of Nanoapertures for Examining Membrane Organization and Dynamics". Biophysical Journal 100, nr 3 (luty 2011): 20a. http://dx.doi.org/10.1016/j.bpj.2010.12.318.

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27

Serdyuk, V. M., J. A. Titovitsky, S. V. Von Gratovski i V. V. Koledov. "Calculation of Near Zone Electromagnetic Field Radiated from Sub-Wavelength Nanoaperture to a Plane Dielectric". International Journal of Nanoscience 18, nr 03n04 (26.03.2019): 1940024. http://dx.doi.org/10.1142/s0219581x19400246.

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The theoretical model of electromagnetic transmission through solitary sub-wavelength nanoapertures is considered. The model is based on a rigorous solution of the plane wave diffraction problem by a slot in the perfectly conducting screen of a finite thickness. The local energy of the electric field inside the plane dielectrics arranged behind the screen is used for calculations. The results demonstrate the principal features of the phenomenon that confirms that the diffraction theory can be applied successfully without the concept of surface plasmons.
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28

Jaksic, Z., M. Maksimovic, D. Vasiljevic-Radovic i M. Sarajlic. "Subwavelength hole arrays with nanoapertures fabricated by scanning probe nanolithography". Science of Sintering 38, nr 2 (2006): 117–23. http://dx.doi.org/10.2298/sos0602117j.

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Owing to their surface plasmon-based operation, arrays of subwavelength holes show extraordinary electromagnetic transmission and intense field localizations of several orders of magnitude. Thus they were proposed as the basic building blocks for a number of applications utilizing the enhancement of nonlinear optical effects. We designed and simulated nanometer-sized subwavelength holes using an analytical approach. In our experiments we used the scanning probe method for nanolithographic fabrication of subwavelength hole arrays in silver layers sputtered on a positive photoresist substrate. We fabricated ordered nanohole patterns with different shapes, dispositions and proportions. The smallest width was about 60 nm. We characterized the fabricated samples by atomic force microscopy.
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29

Cetin, Arif E., Sabri Kaya, Alket Mertiri, Ekin Aslan, Shyamsunder Erramilli, Hatice Altug i Mustafa Turkmen. "Dual-band plasmonic resonator based on Jerusalem cross-shaped nanoapertures". Photonics and Nanostructures - Fundamentals and Applications 15 (czerwiec 2015): 73–80. http://dx.doi.org/10.1016/j.photonics.2015.04.001.

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30

Zhang, Douguo, Dong Qiu, Yikai Chen, Ruxue Wang, Liangfu Zhu, Pei Wang, Hai Ming i in. "Coupling of Fluorophores in Single Nanoapertures with Tamm Plasmon Structures". Journal of Physical Chemistry C 123, nr 2 (29.12.2018): 1413–20. http://dx.doi.org/10.1021/acs.jpcc.8b11498.

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31

Attavar, Sachin, Mohit Diwekar i Steve Blair. "Photoactivated capture molecule immobilization in plasmonic nanoapertures in the ultraviolet". Lab on a Chip 11, nr 5 (2011): 841. http://dx.doi.org/10.1039/c0lc00498g.

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32

Amarie, Dragos, Nathan D. Rawlinson, William L. Schaich, Bogdan Dragnea i Stephen C. Jacobson. "Three-Dimensional Mapping of the Light Intensity Transmitted through Nanoapertures". Nano Letters 5, nr 7 (lipiec 2005): 1227–30. http://dx.doi.org/10.1021/nl050891e.

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33

Bouhelier, A., J. Toquant, H. Tamaru, H. J. Güntherodt, D. W. Pohl i G. Schider. "Electrolytic formation of nanoapertures for scanning near-field optical microscopy". Applied Physics Letters 79, nr 5 (30.07.2001): 683–85. http://dx.doi.org/10.1063/1.1389767.

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34

Kelly, Christopher V., David A. Holowka, Barabara A. Baird i Harold G. Craighead. "Nanoapertures for 60 nm Resolution of Membrane Organization and Dynamics". Biophysical Journal 102, nr 3 (styczeń 2012): 207a. http://dx.doi.org/10.1016/j.bpj.2011.11.1131.

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35

Lenne, Pierre-François, Hervé Rigneault, Didier Marguet i Jérôme Wenger. "Fluorescence fluctuations analysis in nanoapertures: physical concepts and biological applications". Histochemistry and Cell Biology 130, nr 5 (18.09.2008): 795–805. http://dx.doi.org/10.1007/s00418-008-0507-7.

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36

Chovin, Arnaud, Patrick Garrigue i Neso Sojic. "Remote NADH imaging through an ordered array of electrochemiluminescent nanoapertures". Bioelectrochemistry 69, nr 1 (wrzesień 2006): 25–33. http://dx.doi.org/10.1016/j.bioelechem.2005.10.002.

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37

Pu, Mingbo, Xiong Li, Yinghui Guo, Xiaoliang Ma i Xiangang Luo. "Nanoapertures with ordered rotations: symmetry transformation and wide-angle flat lensing". Optics Express 25, nr 25 (4.12.2017): 31471. http://dx.doi.org/10.1364/oe.25.031471.

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38

McKeown, Steven J., i Lynford L. Goddard. "Reflective Palladium Nanoapertures on Fiber for Wide Dynamic Range Hydrogen Sensing". IEEE Journal of Selected Topics in Quantum Electronics 23, nr 2 (marzec 2017): 263–68. http://dx.doi.org/10.1109/jstqe.2016.2617086.

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39

Gunay, Kaan T., Patrick W. Flanigan, Pei Liu i Domenico Pacifici. "Polarization dependence of light transmission through individual nanoapertures in metal films". Journal of the Optical Society of America B 31, nr 5 (23.04.2014): 1150. http://dx.doi.org/10.1364/josab.31.001150.

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40

Li, Jianxiong, Shuqi Chen, Ping Yu, Hua Cheng, Lunjie Chen i Jianguo Tian. "Indirectly Manipulating Nanoscale Localized Fields of Bowtie Nanoantennas with Asymmetric Nanoapertures". Plasmonics 8, nr 2 (19.08.2012): 495–99. http://dx.doi.org/10.1007/s11468-012-9417-6.

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41

Serdyuk, V. M., S. V. von Gratowski i V. V. Koledov. "Diffraction Focusing of Electromagnetic Radiation by Transmission through Sub-Wavelength Nanoapertures". Semiconductors 54, nr 14 (grudzień 2020): 1814–15. http://dx.doi.org/10.1134/s1063782620140250.

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42

Kotnala, Abhay, Hongru Ding i Yuebing Zheng. "Enhancing Single-Molecule Fluorescence Spectroscopy with Simple and Robust Hybrid Nanoapertures". ACS Photonics 8, nr 6 (18.05.2021): 1673–82. http://dx.doi.org/10.1021/acsphotonics.1c00045.

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43

Cadusch, Jasper J., Timothy D. James i Ann Roberts. "Experimental demonstration of a wave plate utilizing localized plasmonic resonances in nanoapertures". Optics Express 21, nr 23 (12.11.2013): 28450. http://dx.doi.org/10.1364/oe.21.028450.

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44

Ghenuche, Petru, Juan de Torres, Satish Babu Moparthi, Victor Grigoriev i Jérôme Wenger. "Nanophotonic Enhancement of the Förster Resonance Energy-Transfer Rate with Single Nanoapertures". Nano Letters 14, nr 8 (16.07.2014): 4707–14. http://dx.doi.org/10.1021/nl5018145.

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45

Cui, Tong, Mingqian Zhang, Lin Sun, Shuyin Zhang, Jia Wang, Benfeng Bai i Hong-Bo Sun. "Spin‐Symmetry‐Selective Generation of Ultracompact Optical Vortices in Nanoapertures without Chirality". Small Structures 1, nr 2 (9.09.2020): 2000008. http://dx.doi.org/10.1002/sstr.202000008.

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46

Pang, Yuanjie, i Reuven Gordon. "Nanophotonics using a subwavelength aperture in a metal film". Nanotechnology Reviews 1, nr 4 (1.08.2012): 339–62. http://dx.doi.org/10.1515/ntrev-2012-0028.

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AbstractThis review focuses on the optical theory and applications of a single subwavelength aperture in a metal film. We begin with Bethe’s aperture theory for the optical transmission through a subwavelength aperture in a perfect electric conductor film and extend the discussion to apertures in real metals of finite thickness and to apertures with different shapes. Extraordinary optical transmission (EOT) is reviewed, particularly for an aperture in a transverse waveguide screen and for waveguide EOT with applications to aperture near-field probes. We overview applications of single subwavelength nanoapertures to refractive index sensing, single molecule fluorescence detection, Raman spectroscopy and optical trapping of dielectric nanoparticles, including biological matter. Finally, we discuss the potential of combining these many different capabilities to create greater functionality with a single aperture.
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47

Aslan, Ekin, i Mustafa Turkmen. "Square fractal-like nanoapertures for SEIRA spectroscopy: An analytical, numerical and experimental study". Sensors and Actuators A: Physical 259 (czerwiec 2017): 127–36. http://dx.doi.org/10.1016/j.sna.2017.03.012.

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48

Janipour, Mohsen, i Kursat Sendur. "Interplay Between In-Plane and Out-of-Plane Resonances of Heptamer Oligomer Nanoapertures". Journal of Lightwave Technology 35, nr 2 (15.01.2017): 186–92. http://dx.doi.org/10.1109/jlt.2016.2638047.

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49

Ha, Yingli, Yinghui Guo, Mingbo Pu, Fei Zhang, Xiong Li, Xiaoliang Ma, Mingfeng Xu i Xiangang Luo. "Minimized two- and four-step varifocal lens based on silicon photonic integrated nanoapertures". Optics Express 28, nr 6 (3.03.2020): 7943. http://dx.doi.org/10.1364/oe.386418.

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50

Yanik, AhmetA, Ronen Adato i Hatice Altug. "Design Principles for Optoelectronic Applications of Extraordinary Light Transmission Effect in Plasmonics Nanoapertures". Journal of Nanoscience and Nanotechnology 10, nr 3 (1.03.2010): 1713–18. http://dx.doi.org/10.1166/jnn.2010.2045.

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