Publications

代表論文

  1. S. Fujii, Y. Hayama, K. Imamura, H. Kumazaki, Y. Kakinuma, and T. Tanabe, "All-precision-machining fabrication of ultrahigh-Q crystalline optical microresonators," Optica, Vol. 7, No. 6, pp. 694-701 (2020).  [arXiv:2004.09026v1 (2020)].
  2. Y. Honda, W. Yoshiki, T. Tetsumoto, S. Fujii, K. Furusawa, N. Sekine, and T. Tanabe, "Brillouin lasing in coupled silica toroid microcavities," Appl. Phys. Lett., Vol. 112, 201105 (5 pages) (2018). (Featured Article) (Scilight) [arXiv:1712.09000v1]
  3. R. Suzuki, A. Kubota, A. Hori, S. Fujii, and T. Tanabe, "Broadband gain induced Raman comb formation in a silica microresonator," J. Opt. Soc. Amer. B, Vol. 35, No. 4, pp. 933-938 (2018). (Editor's pick) [arXiv:1712.05091v1]
  4. S. Fujii, T. Kato, R. Suzuki, and T.Tanabe, "Third-harmonic blue light generation from Kerr clustered combs and dispersive waves," Opt. Lett., Vol. 42, No. 10, pp. 2010-2013 (2017).
  5. T. Kato, A. Hori, R. Suzuki, S. Fujii, T. Kobatake, and T. Tanabe, “Transverse mode interaction via stimulated Raman scattering comb in a silica microcavity,” Opt. Express, Vol. 25, No. 2, pp. 857-866 (2017).
  6. Y. Ooka, T. Tetsumoto, A. Fushimi, W. Yoshiki, and T. Tanabe, "CMOS compatible high-Q photonic crystal nanocavity fabricated with photolithography on silicon photonic platform," Sci. Rep. Vol. 5, 11312 (2015).
  7. T. Tetsumoto, Y. Ooka, and T. Tanabe, "High-Q coupled resonances on a PhC waveguide using a tapered nanofiber with high coupling efficiency," Opt. Express, Vol. 23, No. 12,pp. 16256-16263 (2015)
  8. W. Yoshiki and T. Tanabe, "All-optical switching using Kerr effect in a silica toroid microcavity," Opt. Express, Vol. 22, No. 20, pp. 24332-24341 (2014). [arXiv: 1407.2714]
  9. K. Nozaki, T. Tanabe, A. Shinya, S. Matsuo, T. Sato, H. Taniyama, and M. Notomi, "Sub-femtojoule all-optical switching using a photonic crystal nanocavity," Nature Photon. 4, 477-483 (2010).
  10. T. Tanabe, M. Notomi, E. Kuramochi, A. Shinya, H. Taniyama, "Trapping and delaying photons for one nanosecond in an ultra-small high-Q photonic-crystal nanocavity," Nature Photon. 1, 49-52 (2007).

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