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Optical and Quantum Electronics

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01-05-2024

High-q resonances in silicon nanoparticle coupled to nanopit

Authors: Alexander Gritsienko, Alexander Gavrilyuk, Nikita Kurochkin, Alexei Vitukhnovsky

Published in: Optical and Quantum Electronics | Issue 5/2024

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Abstract

Nanoparticle-on-mirror systems have shown promise in nanophotonics for enhancing light emission from quantum sources. In this study, we introduce a new subclass of hybrid systems called nanoparticle-in-pit. We conducted simulations to analyze the scattering properties and near-field enhancement of emission for a silicon nanoparticle near a gold surface and in a nanopit. Our focus was on investigating the impact of different geometric parameters of a nanoantenna on the optical resonances. The proposed nanoantenna exhibited Fano-like resonances, achieving a high Q-factor of up to 100 and subwavelength near-field confinement. Additionally, for silicon nanoparticles in the visible spectrum, we demonstrated the presence of various resonances that can enhance both the absorption and emission of quantum emitters by adjusting the geometric parameters of the nanoantenna. For real applications, we suggest the core-shell configuration of a silicon nanoparticle with a dielectric shell as a more suitable one. The properties of silicon nanoparticle-based nanoantennas presented in this study surpass those of a silicon nanoparticle on a gold surface, opening up possibilities for nanophotonic applications using high-index dielectric nanoparticles.

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Aharonovich, I., Englund, D., Toth, M.: Solid-state single-photon emitters. Nat. Photonics 10(10), 631–641 (2016)ADS

Andersen, S.K., Kumar, S., Bozhevolnyi, S.I.: Ultrabright linearly polarized photon generation from a nitrogen vacancy center in a nanocube dimer antenna. Nano Lett. 17(6), 3889–3895 (2017)ADS

Arakawa, Y., Holmes, M.J.: Progress in quantum-dot single photon sources for quantum information technologies: a broad spectrum overview. Appl. Phys. Rev. 7(2), 021309 (2020)ADS

Bozhevolnyi, S.I., Khurgin, J.B.: Fundamental limitations in spontaneous emission rate of single-photon sources. Optica 3(12), 1418–1421 (2016)ADS

Butt, M.A., Kazanskiy, N.L., Khonina, S.N.: Advances in waveguide bragg grating structures, platforms, and applications: an up-to-date appraisal. Biosensors 12(7), 497 (2022)

Castelletto, S., Inam, F.A., Sato, S.-I., Boretti, A.: Hexagonal boron nitride: a review of the emerging material platform for single-photon sources and the spin-photon interface. Beilstein J. Nanotechnol. 11(1), 740–769 (2020)

Chaabani, W., Proust, J., Movsesyan, A., Béal, J., Baudrion, A.-L., Adam, P.-M., Chehaidar, A., Plain, J.: Large-scale and low-cost fabrication of silicon MIE resonators. ACS Nano 13(4), 4199–4208 (2019)

Derepko, V., Ovchinnikov, O., Smirnov, M., Grevtseva, I., Kondratenko, T., Selyukov, A., Turishchev, S.Y.: Plasmon-exciton nanostructures, based on CDS quantum dots with exciton and trap state luminescence. J. Lumin. 248, 118874 (2022)

Faggiani, R., Yang, J., Lalanne, P.: Quenching, plasmonic, and radiative decays in nanogap emitting devices. ACS Photonics 2(12), 1739–1744 (2015)

Gao, X., Byram, C., Adams, J., Zhao, C.: Determining the laser-induced release probability of a nanoparticle from a soft substrate. Opt. Lett. 47(23), 6181–6184 (2022)ADS

Gao, L., Lemarchand, F., Lequime, M.: Refractive index determination of sio2 layer in the uv/vis/nir range: spectrophotometric reverse engineering on single and bi-layer designs. J. Eur. Opt. Soc.-Rapid Publ. 8, 13010 (2013)

Grayli, V., Kamal, S., Leach, G.W.: High performance, single crystal gold bowtie nanoantennas fabricated via epitaxial electroless deposition. Sci. Rep. 13(1), 12745 (2023)ADS

Grevtseva, I.G., Ovchinnikov, O.V., Smirnov, M.S., Perepelitsa, A.S., Chevychelova, T.A., Derepko, V.N., Osadchenko, A.V., Selyukov, A.S.: The structural and luminescence properties of plexcitonic structures based on ag 2 s/l-cys quantum dots and au nanorods. RSC Adv. 12(11), 6525–6532 (2022)ADS

Gritsienko, A., Kurochkin, N., Lega, P., Orlov, A., Ilin, A., Eliseev, S., Vitukhnovsky, A.: Hybrid cube-in-cup nanoantenna: towards ordered photonics. Nanotechnology 33(1), 015201 (2021)ADS

Gritsienko, A., Kurochkin, N., Vitukhnovsky, A., Selyukov, A., Taydakov, I., Eliseev, S.: Radiative characteristics of nanopatch antennas based on plasmonic nanoparticles of various geometry and tris (2, 2’-bipyridine) ruthenium (ii) hexafluorophosphate. J. Phys. D Appl. Phys. 52(32), 325107 (2019)

Gurlek, B., Sandoghdar, V., Martín-Cano, D.: Manipulation of quenching in nanoantenna-emitter systems enabled by external detuned cavities: a path to enhance strong-coupling. ACS Photonics 5(2), 456–461 (2018)

Habib, A., Zhu, X., Fong, S., Yanik, A.A.: Active plasmonic nanoantenna: an emerging toolbox from photonics to neuroscience. Nanophotonics 9(12), 3805–3829 (2020)

Hasan, M.R., Hellesø, O.G.: Dielectric optical nanoantennas. Nanotechnology 32(20), 202001 (2021)ADS

Hoang, T.B., Akselrod, G.M., Argyropoulos, C., Huang, J., Smith, D.R., Mikkelsen, M.H.: Ultrafast spontaneous emission source using plasmonic nanoantennas. Nat. Commun. 6(1), 7788 (2015)ADS

Iyer, V., Phang, Y.S., Butler, A., Chen, J., Lerner, B., Argyropoulos, C., Hoang, T., Lawrie, B.: Near-field imaging of plasmonic nanopatch antennas with integrated semiconductor quantum dots. APL Photonics 6(10), 106103 (2021)ADS

Kim, S., Kim, J.-M., Park, J.-E., Nam, J.-M.: Nonnoble-metal-based plasmonic nanomaterials: recent advances and future perspectives. Adv. Mater. 30(42), 1704528 (2018)

Komrakova, S., An, P., Kovalyuk, V., Golikov, A., Gladush, Y., Mkrtchyan, A., Chermoshentsev, D., Krasnikov, D., Nasibulin, A., Goltsman, G.: Hybrid silicon nitride photonic integrated circuits covered by single-walled carbon nanotube films. Nanomaterials 13(16), 2307 (2023)

Kucherik, A., Kutrovskaya, S., Osipov, A., Gerke, M., Chestnov, I., Arakelian, S., Shalin, A., Evlyukhin, A., Kavokin, A.: Nano-antennas based on silicon-gold nanostructures. Sci. Rep. 9(1), 338 (2019)ADS

Kurochkin, N., Eliseev, S., Vitukhnovsky, A.: Plasmon resonance in nanopatch antennas with triangular nanoprisms. Optik 185, 716–720 (2019)ADS

Kuznetsov, A.I., Miroshnichenko, A.E., Brongersma, M.L., Kivshar, Y.S., Luk’yanchuk, B.: Optically resonant dielectric nanostructures. Science 354(6314), 2472 (2016)

Kuznetsov, A.I., Miroshnichenko, A.E., Fu, Y.H., Zhang, J., Luk’Yanchuk, B.: Magnetic light. Sci. Rep. 2(1), 492 (2012)ADS

Lepeshov, S.I., Krasnok, A.E., Belov, P.A., Miroshnichenko, A.E.: Hybrid nanophotonics. Phys. Usp. 61(11), 1035 (2019)ADS

Liao, Y.-C., Nienow, A.M., Roberts, J.T.: Surface chemistry of aerosolized nanoparticles: thermal oxidation of silicon. J. Phys. Chem. B 110(12), 6190–6197 (2006)

Limonov, M.F., Rybin, M.V., Poddubny, A.N., Kivshar, Y.S.: Fano resonances in photonics. Nat. Photonics 11(9), 543–554 (2017)

Liu, S., Han, M.-Y.: Silica-coated metal nanoparticles. Chem. Asian J. 5(1), 36–45 (2010)ADS

Makarov, S.V., Petrov, M.I., Zywietz, U., Milichko, V., Zuev, D., Lopanitsyna, N., Kuksin, A., Mukhin, I., Zograf, G., Ubyivovk, E., et al.: Efficient second-harmonic generation in nanocrystalline silicon nanoparticles. Nano Lett. 17(5), 3047–3053 (2017)ADS

McPeak, K.M., Jayanti, S.V., Kress, S.J., Meyer, S., Iotti, S., Rossinelli, A., Norris, D.J.: Plasmonic films can easily be better: rules and recipes. ACS Photonics 2(3), 326–333 (2015)

Monticone, F., Alu, A.: Metamaterial, plasmonic and nanophotonic devices. Rep. Prog. Phys. 80(3), 036401 (2017)ADS

Ovchinnikov, O., Aslanov, S., Smirnov, M., Perepelitsa, A., Kondratenko, T., Selyukov, A., Grevtseva, I.: Colloidal ag 2 s/sio 2 core/shell quantum dots with IR luminescence. Opt. Mater. Express 11(1), 89–104 (2021)ADS

Purcell, E.M.: Spontaneous emission probabilities at radio frequencies. In: Confined Electrons and Photons: New Physics and Applications, pp. 839–839. Springer, Berlin (1995)

Romshin, A.M., Gritsienko, A.V., Lega, P.V., Orlov, A.P., Ilin, A.S., Martyanov, A.K., Sedov, V.S., Vlasov, I.I., Vitukhnovsky, A.G.: Effectively enhancing silicon-vacancy emission in a hybrid diamond-in-pit microstructure. Laser Phys. Lett. 20(1), 015206 (2022)ADS

Sandzhieva, M., Khmelevskaia, D., Tatarinov, D., Logunov, L., Samusev, K., Kuchmizhak, A., Makarov, S.V.: Organic solar cells improved by optically resonant silicon nanoparticles. Nanomaterials 12(21), 3916 (2022)

Schinke, C., Christian Peest, P., Schmidt, J., Brendel, R., Bothe, K., Vogt, M.R., Kröger, I., Winter, S., Schirmacher, A., Lim, S., et al.: Uncertainty analysis for the coefficient of band-to-band absorption of crystalline silicon. AIP Adv. 5(6), 067168 (2015)ADS

Sugimoto, H., Fujii, M.: Broadband dielectric-metal hybrid nanoantenna: silicon nanoparticle on a mirror. ACS Photonics 5(5), 1986–1993 (2018)

Sugimoto, H., Okazaki, T., Fujii, M.: Mie resonator color inks of monodispersed and perfectly spherical crystalline silicon nanoparticles. Adv. Opt. Mater. 8(12), 2000033 (2020)

Timofeeva, M., Lang, L., Timpu, F., Renaut, C., Bouravleuv, A., Shtrom, I., Cirlin, G., Grange, R.: Anapoles in free-standing iii–v nanodisks enhancing second-harmonic generation. Nano Lett. 18(6), 3695–3702 (2018)ADS

Venugopalan, P., Kumar, S.: Highly sensitive plasmonic sensor with au bow tie nanoantennas on Sio2 nanopillar arrays. Chemosensors 11(2), 121 (2023)

Wang, Z., Liu, L., Zhang, D., Krasavin, A.V., Zheng, J., Pan, C., He, E., Wang, Z., Zhong, S., Li, Z., et al.: Effect of mirror quality on optical response of nanoparticle-on-mirror plasmonic nanocavities. Adv. Opt. Mater. 11(3), 2201914 (2023)

Wang, B., Yu, P., Wang, W., Zhang, X., Kuo, H.-C., Xu, H., Wang, Z.M.: High-q plasmonic resonances: fundamentals and applications. Adv. Opt. Mater. 9(7), 2001520 (2021)

Xu, J., Wu, Y., Zhang, P., Wu, Y., Vallée, R.A., Wu, S., Liu, X.: Resonant scattering manipulation of dielectric nanoparticles. Adv. Opt. Mater. 9(15), 2100112 (2021)

Yang, Y., Miller, O.D., Christensen, T., Joannopoulos, J.D., Soljacic, M.: Low-loss plasmonic dielectric nanoresonators. Nano Lett. 17(5), 3238–3245 (2017)ADS

Yang, G., Niu, Y., Wei, H., Bai, B., Sun, H.-B.: Greatly amplified spontaneous emission of colloidal quantum dots mediated by a dielectric-plasmonic hybrid nanoantenna. Nanophotonics 8(12), 2313–2319 (2019)

Zhang, G., Cheng, Y., Chou, J.-P., Gali, A.: Material platforms for defect qubits and single-photon emitters. Appl. Phys. Rev. 7(3), 031308 (2020)

Zhang, Z., Liu, P., Lu, W., Bai, P., Zhang, B., Chen, Z., Maier, S.A., Rivas, J.G., Wang, S., Li, X.: High-q collective MIE resonances in monocrystalline silicon nanoantenna arrays for the visible light. Fund. Res. 3(5), 822–830 (2023)

Zhang, T., Xu, J., Deng, Z.-L., Hu, D., Qin, F., Li, X.: Unidirectional enhanced dipolar emission with an individual dielectric nanoantenna. Nanomaterials 9(4), 629 (2019)ADS

Zywietz, U., Evlyukhin, A.B., Reinhardt, C., Chichkov, B.N.: Laser printing of silicon nanoparticles with resonant optical electric and magnetic responses. Nat. Commun. 5(1), 3402 (2014)ADS

Title: High-q resonances in silicon nanoparticle coupled to nanopit
Authors: Alexander Gritsienko
Alexander Gavrilyuk
Nikita Kurochkin
Alexei Vitukhnovsky
Publication date: 01-05-2024
Publisher: Springer US
Published in: Optical and Quantum Electronics / Issue 5/2024
Print ISSN: 0306-8919
Electronic ISSN: 1572-817X
DOI: https://doi.org/10.1007/s11082-024-06773-1

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