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  1. B. S. Song, S. Jeon,, H. Kim, D. D. Kang, T. Asano, and S. Noda, “High-Q-factor nanobeam photonic crystal cavities in bulk silicon carbide”, Appl. Phys. Lett. 113,no 23 026849 (1)-(4)(2018)

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  3. S. Park, H. Kim, B. S. Song, “Design of thin-film photonic crystals with complete photonic bandgap”, Optics Express 26, no.22 29521–29526 (2018)

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  5. S. Jeon, H. Kim, B. S. Song, Y. Yamaguchi, T. Asano, and S. Noda, “Measurement of optical loss in nanophotonic waveguides using integrated cavities”, Optics Letters 41, no.23 5486–5489 (2016)

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  7. H. Kim, S.  Jeon, B. S. Song, “Investigation of second-harmonic generation efficiency in a waveguide-side-coupled photonic nanocavity,” Journal of the Optical Society of America B –Optical Physics 33, No. 9, 2010-2014 (2016)

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  9. Y. H. Jung, J. H. Jang, H. Kang, W. S. Choi, Y.-K. Choi, W.-C. Song, B.-S. Song, J.-H. Lee, and B. Hong, "Properties of Dye-Sensitized Solar Cells Using Carbon Nanowall Counter Electrodes," Journal of Nanoscience and Nanotechnology 16, 5302–5304, 2016

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  11. Y.-H. Joung, F.-S. Kang, S. Lee, H. Kang, W. S. Choi, Y.-K. Choi, B.-S. Song, J. Lee, and B. Hong, "Reaction Gas Ratio Effect on the Growth of a Diamond Film Using Microwave Plasma-Enhanced Chemical Vapor Deposition", Journal of Nanoscience and Nanotechnology  16, 5295–5297, (2016)

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  13. Y. Yamaguchi, S. Jeon, B. S. Song, Y. Tanaka, T. Asano, and S. Noda, “Analysis of Q-factors of structural imperfections in triangular cross-section nanobeam photonic  crystal cavities”, Journal of the Optical Society of America B –Optical Physics vol 32, no 9 1792-1(2015)

  14. S. Kim, J. Lee, V. A. Dao, S. Ahn, S. Q. Hussain, J. Park, J. Jung, C. Lee, B. S. Song, B. Choi, Y. J. Lee, S. M. Iftiquar, and J. Yi, “Investigation of Electrical and Optical Properties of Highly Transparent TCO/Ag/TCO Multilayer”, Journal of Nanoscience and Nanotechnology, Vol. 15, 2247–2252, 2015 (2015)

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  16. S. Jeon, B. S. Song ,S. Yamada, Y. Yamaguchi, J. Upham,T. Asano,and S. Noda, “Multiple-channel wavelength conversions in a photonic crystal cavity”, Optics Express 23, no. 4, 4524–4529 (2015)

 

Y. Yi, T. Asano, Y. Tanaka, B. S. Song, and S. Noda, “Investigation of electric/magnetic local interaction between Si photonic-crystal nanocavities and Au meta-atoms”, Opt. Lett. 39, no.19 5661–5664 (2014) 

 

S. Kim, J. Jung, Y. Lee, S. Ahn, S. Q. Hussain, J. Park, B. S. Song, S. Han, V. A. Dao, J. Lee, J, Yi, "Role of double ITO/In2O3 layer for high efficiency amorphous/crystalline silicon heterojunction solar," Materials Research Bulletin 58, 83-87 (2014).

 

  • J. G. Yun, D. H. Jung, H. J. Kim, W. S. Choi, B. Y. Hong, S. Noda, B. S. Song, “Fabrication of diamond-like carbon-based two-dimensional photonic crystals,” Microelectronic Engineering 126, 99-102 (2014).

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  • Shota Yamada, Bong-Shik Song, Seungwoo Jeon, Jeremy Upham, Yoshinori Tanaka, Takashi Asano, and Susumu Noda, “Second-harmonic generation in a silicon-carbide-based photonic crystal nanocavity,” Opt. Lett. 39(7), 1768- 1771 (2014).

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  • Jeremy Upham, Yuu Fujita, Yousuke Kawamoto, Yoshinori Tanaka, Bong-Shik Song, TakashiAsano, and Susumu Noda, “The capture, hold and forward release of an optical pulse from a dynamic photonic crystal nanocavity,” Opt. Express 21(3), 3809-3817 (2013).

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  • Shota Yamada, Bong-Shik Song, Jeremy Upham, Yoshinori Tanaka, Takashi Asano, and Susumu Noda, “Suppression of multiple photon absorption in a SiC photonic crystalnanocavity operating at 1.55 μm,” Opt. Express 20(14), 14789- 14796 (2012).

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  • Shota Yamada, Bong-Shik Song, Takashi Asano, and Susumu Noda, “Silicon carbide-based photonic crystal nanocavities for ultra-broadband operation from infrared to visible wavelengths,” Appl. Phys. Lett. 99(20), 201102(1)-(3) (2011).

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  • Jeremy Upham, Yoshinori Tanaka, Yousuke Kawamoto, Yoshiya Sato, Tatsuya Nakamura, Bong-Shik Song, Takashi Asano, and Susumu Noda, “Time-resolved catch and release of an optical pulse from a dynamic photonic crystal nanocavity” Opt. Express 19(23), 23377- 23385 (2011).

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  • Shota Yamada, Bong-Shik Song, Takashi Asano, and Susumu Noda, “Experimental investigation of thermo-optic effects in SiC and Si photonic crystal nanocavities,” Opt. Lett. 36(20), 3981-3983 (2011).

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  • Bong-Shik Song, Shota Yamada, Takashi Asano, and Susumu Noda, “Demonstration of two-dimensional photonic crystals based on silicon carbide,” Opt. Express 19(12), 11084-11089 (2011).

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  • M. Burresi, D. van Oosten, B. S. Song, S. Noda, L. Kuipers, “Ultra-fast reciprocal-space investigation of cavity-waveguide coupling,” Opt. Lett. 36(10), 1827-1829 (2011).

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  • Bong-Shik Song, Seung-Woo Jeon, and Susumu Noda, “Symmetrically glass- clad photonic crystal nanocavities with ultrahigh quality factors,” Opt. Lett. 36(1), 91-93 (2011).

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  • M. Burresi, T. Kampfrath, D. van Oosten, J. C. Prangsma, B. S. Song, S. Noda, and L.Kuipers, “Magnetic Light-Matter Interactions in a Photonic Crystal Nanocavity,” Phys. Rev. Lett. 105(12), 123901(1)-(4) (2010).

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  • Seung-Woo Jeon, Jin-kyu Han, Bong-Shik Song, and Susumu Noda, “Glass-embedded two-dimensional silicon photonic crystal devices with a broad bandwidth waveguide and a high quality nanocavity,” Opt. Express 18(18), 19361-19366 (2010).

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  • Bong-Shik Song, Takuji Nagashima, Takashi Asano, and Susumu Noda, “Resonant-wavelength tuning of ananocavity by subnanometer control of a two-dimensional silicon-based photonic crystal slab structure,” Appl. Optics  48, no. 26,pp.4899-4903  (2009).

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  • Bong-Shik Song*, Takuji Nagashima, Takashi Asano, and Susumu Noda, “Resonant-Wavelength Control of Nanocavities by Nanometer-Scaled Adjustment of Two-Dimensional Photonic Crystal Slab Structures”, IEEE Photonics Technology Letters 20, no. 7,pp.532-534

  • B. S. Song*, T. Asano, and S. Noda, "Recent advances in two-dimensional photonic crystalsslab structure: Defect engineering and heterostructure", NANO 2, 1 (2007).

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  • Y. Takahashi, H. Hagino, Y. Tanaka, B. S. Song, T. Asano, and S. Noda, "High-Q nanocavitywith a 2-ns photon lifetime", Optics Express 15, 17206 (2007).

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  • B. S. Song*, T. Asano, and S. Noda, "Heterostructures in two-dimensional photonic-crystal slabs and their application to nanocavitiees", Journal of Physics D : Applied Physics 40, 2629 (2007).

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  • T. Asano, B. S. Song, Y. Akahane, and S. Noda, "Ultrahigh-Q nanocavities in two-dimensional photonic crystal slabs", IEEE Journal of selected topics in quantum electronics 12, 1123 (2006).

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  • B. S. Song*, T. Asano,and S. Noda, "Physical origin of the small modal volume of ultra-high-Q photonic double-heterostructure nanocavities", New Journal of Physics 8,209 (2006).

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  • H. Takano,B.S. Song, T. Asano, and S. Noda,“Highly Effective In-Plane Channel-Drop Filters in Two-Dimensional Heterostructure Photonic-Crystal Slab”, Japanese Journal of Applied Physics 45, 6078 (2006).

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  • H. Takano, B.S. Song, T. Asano, and S. Noda, “Highly efficient multi-channel drop filter in a two-dimensional hetero photonic crystal”, Optics Express 14, 3491(2006).

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  • T. Asano, W. Kunishi,B.S. Song, S. Noda, “Time-domain response of point-defect cavities in two-dimensional photonic crystal slabs using picosecond light pulse”, Applied Physics Letters 88, 151102 (2006).

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  • T. Asano, B.S. Song, S. Noda, “Analysis of the experimental Q factors (~ 1 million) of photonic crystal nanocavities”, Optics Express 14, 1996 (2006).

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  • T. Uesugi, B.S. Song, T. Asano, S. Noda, “Investigation of optic nonlinearities in an ultra-high-Q Si nanocavity in a two-dimensional photonic crystal slab”, Optics Express 14, 377 (2006).

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  • H. Takano,B.S. Song, T. Asano, and S. Noda, “Highly efficient in-plane channel drop filter in a two-dimensional heterophotonic crystal”, Applied Physics Letters 86, 241101, (2005).

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  • B.S. Song*, T. Asano, Y. Akahane, and S.Noda, “Role of interfaces in heterophotoniccrystals for manipulation of photons”, Physical Review B 71, 195101 (2005).

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  • Y. Akahane, T. Asano, H. Takano, B.S. Song, Y. Tanaka, and S. Noda, “Two-dimensional photonic-crystal-slab channel-drop filter with flat-top response”, Optics Express 13, 2512 (2005).

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  • B.S. Song*, S. Noda, T. Asano, and Y. Akahane, “Ultra-high-Q photonic double-heterostructure nanocavity”, Nature Materials 4, 207 (2005)

  • B.S. Song*, T. Asano, Y. Akahane, Y. Tanaka, and S. Noda, “Multichannel Add/Drop Filter Based on In-Plane Hetero Photonic Crystals”, IEEE Journal of Lightwave Technology 23, 3, 1449(2005).

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  • Y. Akahane, T. Asano, B.S. Song, and S. Noda, “Fine-tuned high-Q photonic-crystalnanocavity”, Optics Express 13, 1202-1214 (2005)

  • T. Asano, W. Kunishi, M. Nakamura, B.S. Song, and S. Noda, “Dynamic wavelength tuning of channel-drop device in two-dimensional photonic crystal slab”, Electronics Letters 41, 37(2005).

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  • B. S. Song, T. Asano, Y. Akahane, Y. Tanaka, and S. Noda, “Transmission and reflection characteristics of in-plane hetero-photonic crystals”, Applied Physics Letters 85, 4591 (2004).

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  • T. Asano, K. Kiyota, D. Kumamoto, B. S. Song, and S. Noda," Time-domain measurement of picosecond light-pulse propagation in a two-dimensional photonic crystal-slab waveguide”, Applied Physics Letters 84, 4690 (2004).

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  • Y. Akahane, T. Asano, B.S. Song,and S. Noda, "High-Q photonic nanocavity in a two-dimensional photonic crystal",Nature 425, 944,2003

  • Y. Akahane, T. Asano, B.S. Song,and S. Noda, "Investigation of high-Q channel drop filters using donor-type defects in two-dimensional photonic crystal slabs", Applied Physics Letters 83, 1512(2003).

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  • T. Asano, B.S. Song, Y. Tanaka,and S. Noda, "Investigation of a channel-add/drop filtering device using acceptor-type point defects in a two-dimensional photonic crystal slab",AppliedPhysics Letters 83, 407 (2003).

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  • B.S. Song,S. Noda,and T. Asano,"Photonic Device based on In-plane Hetero Photonic crystal",Science300, 1537(2003).

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Y.Tanaka, T. Asano, Y. Akahane, B.S. Song,and S. Noda, "Theoretical investigation of a two-dimensional photonic crystal slab with truncated cone air holes",Applied Physics Letters 82, 1661(2003).