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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).