Publications

대표 논문

  1. S. Fujii, Y. Hayama, K. Imamura, H. Kumasaka, 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 페이지) (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).
  1. Shun Fujii, Koshiro Wada, Soma Kogure, Takasumi Tanabe, "Mechanically actuated Kerr soliton microcombs," Laser and Photonics Reviews (2024). (게재 승인). [arXiv:2306.02005 (2023)].
  2. 소타 쇼타, 한다 코이치로, 후지이 슌, 다나베 타카스미, 우자와 요시노리, 후루사와 켄타로, 세키네 노리히코, "질화규소 기반 고Q 마이크로링 공진기 제작과 주파수 빗 생성에의 응용 기반 고Q 마이크로링 공진기의 제작과 주파수 빗 생성에의 응용"에 대해 발표했다. Optical Materials Express, Vol. 15, No. 5, pp.
  3. David Moreno, Shun Fujii, Ayata Nakashima, Deniz Lemcke, Atsushi Uchida, Pablo Sanchis, Takasumi Tanabe, "두 개의 혼돈의 동기화 마이크로 공진기 주파수 빗의 동기화" Optics Express, Vol. 32, No..
  1. 스가와라 슈토, 후지이 슌, 가와니시 사토키, 다나베 타카스미, "고Q 실리카 마이크로 공진기 내 라만 빗의 안정성과 상호 일관성" Optics Continuum Vol.
  2. S. Fujii, K. Wada, R. Sugano, H. Kumazaki, S. Kogure, Y. K. Kato, and T. Tanabe, "Versatile tuning of Kerr soliton microcombs in crystalline microresonators," Communication Physics, Vol. [arXiv:2206.13782 (2022)].
  1. R. Tokunaga, K. Kinoshita, R. Imamura, K. Nagashima, R. Imafuku, K. Nakagawa, T. Tanabe, and H. Maki, "Carbon Nanotubes Coupled with Silica Toroid Silicon-Integrated Photonics for Emitters as Microcavities." ACS Appl. Nano Mater., Vol..
  2. A. Nakashima, S. Fujii, R. Imamura, K. Nagashima, and T. Tanabe, “Deterministic generation of a perfect soliton crystal with a saturable absorber,” Opt. Lett., Vol. 47, No. 6, pp.1458-1461 (2022). [arXiv:2112.12336 (2021)].
  3. S. Fujii, S. Tanaka, T. Ohtsuka, S. Kogure, K. Wada, H. Kumazaki, S. Tasaka, Y. Hashimoto, Y. Kobayashi, T. Araki, K. Furusawa, N. Sekine, S. Kawanishi, and T. Tanabe, “Dissipative Kerr soliton microcombs for FEC-free optical communications over 100 channels,” Opt. Express, Vol. 30, No. 2, pp. 1351-1364 (2022). [arXiv:2111.00895 (2021)].
  4. 이마무라 리쿠, 스즈키 토모오, 이시다 란마루, 후지이 순, 세트·지·이온, 야마시타 신지, 타나베 타카준, “소형 모드 동기 레이저 개발에 놓인 에르븀 첨가 미소광 공진기의 제작과 과포화 흡수 특성”,전기 학회 논문지 C, Vol. 142, No. 3, pp. 395-400 (2022).
  5. 타나베 타카미, 요시키 항, 유베 항희, 「광차 효과에 의한 온칩형 광 스위치의 개발」,광 얼라이언스, Vol. 33, No. 4, pp. 1-6 (2022).(상용 잡지 해설 기사)
  1. Y. Hayama, S. Fujii, T. Tanabe, and Y. Kakinuma, “Theoretical approach on the critical depth of cut of single crystal MgF2 and application to a microcavity,” Precision Engineering, Vol. 73, pp. 234-243 (2022).
  2. TSLP Suzuki, A. Nakashima, K. Nagashima, R. Ishida, R. Imamura, S. Fujii, SY Set, S. Yamashita, and T. Tanabe, "Design of a passively mode-locking whispering-gallery-mode microlaser, " J. Opt. Soc. Amer. B, Vol. 38, No. 10, pp. 3172-3178 (2021). [arXiv:2106.06943 (2020)].
  1. K. Kato, T. Takagi, T. Tanabe, S. Moriyama, Y. Morita, and H. Maki, “Manipulation of phase slips in carbon-nanotube-templated niobium-nitride superconducting nanowires under microwave radiation,” Sci. Rep. , Vol. 10, 14278 (2020).
  2. 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)].
  3. S. Fujii and T. Tanabe, “Dispersion engineering and measurement of whispering gallery mode microresonator for Kerr frequency comb generation,” >Nanophotonics, Vol. 9, No. 5, pp. 1087-1104 (2020). (review paper).
  4. 타나베 타카미, 후지이 순, 와다 유키시로, 카키누마 야스히로, 「미소광 공진기를 이용한 광 주파수 콤」 전자정보통신학회지, Vol. 103, No. 11, pp. 1105-1112 (2020). (해설 기사)
  5. 田邉孝純, 「미소광 공진기를 이용한 광주파수 광원 개발」, 포토닉스 뉴스, Vol. 6, No. 3, pp. 76-80 (2020). (해설 기사)
  1. Y. Zhuang, H. Kumazaki, S. Fujii, R. Imamura, NAB Daud, R. Ishida, H. Chen, and T. Tanabe, “Coupling of a whispering gallery mode to a silicon chip with photonic crystal,” Opt. Lett., Vol. 44, No. 23, pp. 5731-5734 (2019)(Editor's pick) [arXiv:1909.06029v1]
  2. T. Tanabe, S. Fujii, and R. Suzuki, “Review on microresonator frequency comb,” Jpn. J. Appl. Phys., Vol. 58, SJ-0801 (9 pages) (2019). (progress review paper)
  3. S. Fujii, S. Tanaka, M. Fuchida, H. Amano, Y. Hayama, R. Suzuki, Y. Kakinuma, and T. Tanabe, “Octave-wide phase-matched four-wave mixing in dispersion engineered crystalline microresonators, ” Opt. Lett., Vol. 44, No. 12, pp. 3146-3149 (2019)(Editor's pick) [arXiv:1904.04455v1 (2019)].
  4. P. Minzioni, C. Lacava, T. Tanabe, J. Dong, X. Hu, G. Csaba, W. Porod, G. Singh, A. Willner, A. Almaiman, V. Torres-Company, J. Schroeder, A. Peacock, M. Strain, F. Parmigiani, G. Contestabile, M. Giampiero, D. Marpaung, Z. Liu, J. Bowers, L. Chang, S. Fabbri, M. Vázquez, V. Bharadwaj, S. Eaton, P. Lodahl, X. Zhang, B. Eggleton, B. Munro, K. Nemoto, O. Morin, J. Laurat, and J. Nunn, “Roadmap on all-optical processing,” J. Opt. Vol. 21, No. 6, 063001 (55 pages) (2019). (review paper)
  5. R. Suzuki, S. Fujii, A. Hori, and T. Tanabe, “Theoretical study on dual-comb generation and soliton trapping in a single microresonator with orthogonally polarized dual-pumping,” IEEE Phot. J., Vol. 11, No. 1, 6100511 (11 pages) (2019).
  6. 다나 타카 준, 후지이 순, 스즈키 료, 카키 누마 야스히로, 「미소 광 공진기에 의한 광 주파수 콤」광기술 접점, Vol. 57, No. 3, pp. 16-23 (2019). (해설 기사)
  1. NAB Daud and T. Tanabe, “Photolithographically fabricated silicon photonic crystal nanocavity photoreceiver with laterally integrated pin diode,” AIP Adv., Vol. 8, No. 10, 105224 (7 pages) (2018).
  2. S. Fujii, Y. Okabe, R. Suzuki, T. Kato, A. Hori, Y. Honda, and T. Tanabe, “Analysis of mode coupling assisted Kerr comb generation in normal dispersion system,” IEEE Phot. J., Vol. 10, No. 5, 4501511 (11 pages) (2018).
  3. T. Kumagai, N. Hirota, K. Sato, K. Namiki, H. Maki, and T. Tanabe, “Saturable absorption by carbon nanotubes on silica microtoroids,” J. Appl. Phys., Vol. 123, 233104 (6 pages) (2018).
  4. 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]
  5. 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]
  6. Y. Mizumoto, H. Itobe, H. Kangawa, M. Fuchida, T. Tanabe, and Y. Kakinuma, “Development of CaF2-brass hybrid WGM microcavity by using ultra-precision machining,” Mechanical Engineering Letters, Vol. 4, pp. 17-00491 (8 pages) (2018).
  7. S. Fujii, T. Kato, R. Suzuki, A. Hori, and T. Tanabe, “Transition between Kerr comb and stimulated Raman comb in a silica whispering gallery mode microcavity,” J. Opt. Soc. Amer. B, Vol. 35, No. 1, pp. 100-106 (2018). (Editor's pick) [arXiv:1712.04601v1]
  8. 田邉孝純, 스즈키 료, 울모토 토모다이, 카누누마 야스히로, 「고Q값 미소광 공진기의 제작과 응용」 응용 물리, Vol. 87, No. 3, pp. 181-186 (2018). (해설 기사)
  9. 후지이 순, 스즈키 료, 호리 아츠시 히로시, 쿠보타 케이히로, 타나베 타카 쥰, 「미소 공진기의 카콤 수치 시뮬레이션 방법」, 레이저 연구, Vol. 46, No. 2, pp. 97-102 (2018).
  10. 타나베 타카미, 스즈키 료, 후지이 순, 쿠보타 케이히로, 호리 아츠시 유, 「미소광 공진기에 의한 마이크로콤 발생」, 레이저 연구, Vol. 46, No. 2, pp. 86-91 (2018). )
  1. S. Fujii, A. Hori, T. Kato, R. Suzuki, Y. Okabe, W. Yoshiki, AC-Jinnai, and T. Tanabe, "Effect on Kerr comb generation in a clockwise and counter-clockwise mode coupled microcavity, " Opt. Express, Vol. 25, No. 23, pp. 28969-28982 (2017). [arXiv:1709.10226v1]
  2. R. Suzuki, T. Kato, T. Kobatake, and T. Tanabe, "Suppression of optomechanical parametric oscillation in a toroid microcavity assisted by a Kerr comb," Opt. Express, Vol. 25, No. 23, pp. 28806-28816 (2017).
  3. T. Tetsumoto, H. Kumazaki, K. Furusawa, N. Sekine, and T. Tanabe, "Design, fabrication and characterization of a high Q silica nanobeam cavity with orthogonal resonant modes," IEEE Photon. J. Vol. 9, No. 5, 4502609 (9 pages) (2017).
  4. W. Yoshiki, Y. Honda, T. Tetsumoto, K. Furusawa, N. Sekine, and T. Tanabe, “All-optical tunable buffering with coupled ultra-high Qwhispering gallery mode microcavities,” Sci. Rep. 7, 28758 (2017).
  5. NAB Daud, Y. Ooka, T. Tabata, T. Tetsumoto, and T. Tanabe, "Electro-optic modulator based on photolithography fabricated pin integrated photonic crystal nanocavity," IEICE Transactions on Electronics, Vol. E100-C, No.8, pp.670-674 (2017).
  6. Y. Mizumoto, H. Kangawa, H. Itobe, T. Tanabe, and Y. Kakinuma, "Influence of crystal anisotropy on subsurface damage in ultra-precision cylindrical turning of CaF2," Precis. Eng., Vol. 49, pp. 104-114 (2017).
  7. 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).
  8. Y. Ooka, T. Tetumoto, NAB Daud, and T. Tanabe, "Ultrasmall in-plane photonic crystal demultiplexers fabricated with photolithography," Opt. Express, Vol. 25, No. 2, pp. 1521-1528 (2017).
  9. 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).
  10. 타나베 타카미, 「미소광 공진기에 의한 광카콤 발생」, 광학, Vol. 46, No. 3 (2017). (해설 기사)
  1. S. Vyas, T. Tanabe, M. Tiwari, and G. Singh, "Chalcogenide photonic crystal fiber for ultraflat mid-infrared supercontinuum generation," Chin. Opt. Lett., Vol. 14, No. 12, pp. 123201 (5 pages) 2016.
  2. W. Yoshiki, Y. Honda, M. Kobayashi, T. Tetsumoto, and T. Tanabe, "Kerr-induced controllable adiabatic frequency conversion in an ultra-high Q silica toroid microcavity," Opt. Lett., Vol. 41, No. 23, pp. 5482-5485 (2016).
  3. AC-Jinnai, T. Kato, S. Fujii, T. Nagano, T. Kobatake, and T. Tanabe, "Broad bandwidth third-harmonic generation via four-wave mixing and stimulated Raman scattering in a microcavity," Opt. Express, Vol. 24, No. 23, pp. 26322-26331 (2016).
  4. S. Vyas, T. Tanabe, G. Singh and M. Tiwari, "Ultraflat broadband supercontinuum in highly nonlinear Ge11.5As24Se64.5 photonic crystal fibres," Ukr. J. Phys. Opt. Vol. 17, No. 3, pp. 132–139 (2016).
  5. A. Godbole, PP Dali. V. Janyani, T. Tanabe, and G. Singh, "All optical scalable logic gates using Si3N4 microring resonators," IEEE J. Sel. Top. Quantum Electron. Vol. 22, No. 6, 5900308 (2016).
  6. Y. Nakagawa, Y. Mizumoto, T. Kato, T. Kobatake, H. Itobe, Y. Kakinuma, and T. Tanabe, "Dispersion tailoring of a crystalline whispering galley mode microcavity for a wide-spanning optical Kerr frequency comb," J. Opt. Soc. Amer. B, Vol. 33, No. 9, pp. 1913-2920 (2016).
  7. Y. Mizumoto, H. Kangawa, Y. Nakagawa, H. Itobe, T. Tanabe, and Y. Kakinuma, "Influence of nose radius on surface integrity in ultra-precision cylindrical turning of single-crystal calcium fluoride," Procedia CIRP, Vol. 45, 139-142 (2016).
  8. T. Kato, AC-Jinnai, T. Nagano, T. Kobatake, R. Suzuki, W. Yoshiki, and T. Tanabe, "Hysteresis behavior of Kerr frequency comb generation in a high-quality-factor whispering gallery mode microcavity," Jpn. J. Appl. Phys. Vol. 55, No. 7, 072201 (2016). (SPOTLIGHTS)
  9. K. Masuda, S. Moriyama, Y. Morita, K. Komatsu, T. Takagi, T. Hashimoto, N. Miki, T. Tanabe, and H. Maki, "Thermal and quantum phase slips in niobium-nitride nanowires based on suspended carbon nanotubes," Appl. Phys. Lett. Vol. 108, 222601 (2016).
  10. H. Itobe, Y. Nakagawa, Y. Mizumoto, H. Kangawa, Y. Kakinuma, and T. Tanabe, "Bi-material crystalline whispering gallery mode microcavity structure for thermo-opto-mechanical stabilization," AIP Advances, Vol. 6, No. 5, 055116 (2016).
  11. Y. Ooka, NAB Daud, T. Tetsumoto, and T. Tanabe, "Compact resonant electro-optic modulator using randomness of a photonic crystal waveguide," Opt. Express, Vol. 24, No. 10, pp. 11199-11207 (2016).
  12. T. Kobatake, T. Kato, H. Itobe, Y. Nakagawa, and T. Tanabe, "Thermal effects on Kerr comb generation in a CaF2 whispering gallery mode microcavity," IEEE Photonics Journal, Vol. 8, No. 2, 4501109 (2016).
  13. 카토 타쿠미, 진우치 테츠야, 코바타 치야, 타나베 타카유키, 「실리카와 로이드 미소광 공진기를 이용한 모드 동기 마이크로콤 발생과 그 이론 검토」,레이저 연구, Vol. 44, No. 7 pp. 532-536 (2016).
  14. 고바야시 미사코, 니시무라 지로, 타나베 타카준, 「온도 센싱용 실리카 트로이드 미소광 공진기의 실장 기술」,레이저 연구, Vol. 44, No. 3, pp. 198-202 (2016).
  15. 타나베 타카미, 카키누마 야스히로, 미즈모토 유다, 나카가와 요스케, 시부타 미나츠, 「초정밀 가공을 이용한 마이크로 광 공진기의 제작」, O plus E, Vol. 38, No. 11, pp. 1050-1054 (2016). (해설 기사)
  1. W. Yoshiki, AC-Jinnai, T. Tetsumoto, and T. Tanabe, "Observation of energy oscillation between strongly-coupled counter-propagating ultra-high Q whispering gallery modes," Opt. Express, Vol. 23, No. 24, pp. 30851-30860 (2015).
  2. AC-Jinnai, W. Yoshiki, and T. Tanabe, "Broad bandwidth pulse propagation through an ultrahigh-Q microcavity with a chirped pulse," Jpn. J. Appl. Phys., Vol. 54, No. 12, 12201 (2015).
  3. Y. Kakinuma, S. Azami, and T. Tanabe, "Evaluation of subsurface damage caused by ultra-precision turning in fabrication of CaF2 optical micro resonator," CIRP Annals - Manufacturing Technology, Vol. 64, No. 1, 117-120 (2015).
  4. J. Nishimura, M. Kobayashi, R. Saito, and T. Tanabe, "NaCl ion detection using a silica toroid microcavity," Applied Optics, Vol. 54, No. 20, pp. 6391-6396 (2015).
  5. 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," Scientific Reports, Vol. 5, 11312 (2015).
  6. 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).
  7. R. Suzuki, T. Kato, T. Tetsumoto, and T. Tanabe, "Octagoonal toroid microcavity for mechanically robust optical coupling," AIP Advances, Vol. 5, No. 5, 057127 (2015).
  8. S. Azami, H. Kudo, Y. Mizumoto, T. Tanabe, J. Yan, and Y. Kakinuma, "Experimental study of crystal anisotropy based on ultra-precision cylindrical turning of single-crystal calcium fluoride," Precision Engineering, Vol. 40, pp. 172-181 (2015).
  1. W. Yoshiki and T. Tanabe, "Performance of Kerr bistable memory in silicon nitride microring and silica microtoroid," Jpn. J. Appl. Phys. Vol. 53, No. 12, 12202 (pp. 7) (2014). [arXiv: 1308.6042]
  2. 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]
  3. A. Fushimi, H. Taniyama, E. Kuramochi, M. Notomi, and T. Tanabe, "Fast calculation of the quality factor for 2-dimensional photonic crystal slab nanocavities," Opt. Express, Vol. 22, No. 19, pp. 23349-23359 (2014).
  4. S. Azami, K. Hiroshi, T. Tanabe, J. Yan, and Y. Kakinuma, "Experimental analysis of the surface integrity of single-crystal calcium fluoride caused by ultra-precision turning," Procedica CIRP, Vol. 13, pp. 225-229 (2014).
  5. T. Tetsumoto and T. Tanabe, "High-Q silica zipper cavity for optical radiation pressure driven MOMS switch," AIP Advances, Vol. 4, 077137 (2014). [arXiv:1405.3722]
  6. A. Fushimi and T. Tanabe, "All-optical logic gate operating with single wavelength," Opt. Express, Vol. 22, No. 4, pp. 4466-4479 (2014).
  7. 후시미 료오, 타나베 타카유키, 「싱글 모드 동작 전광 논리 게이트의 구조 변동 해석」,레이저 연구, Vol. 42, No. 3, pp. 261-266 (2014).
  1. H.Kudo, R. Suzuki and T. Tanabe, "Whispering gallery modes in hexagonal microcavities," Phys. Rev. A Vol. 88, 023807 (2013). [arXiv:1304.3496]
  2. H. Kudo, Y. Ogawa, T. Kato, A. Yokoo, and T. Tanabe, "Fabrication of whispering gallery mode cavity using crystal growth," Appl. Phys. Lett., Vol. 102, 211105 (2013). [arXiv:1302.5488]
  1. W. Yoshiki and T. Tanabe, "Analysis of bistable memory in silica toroid microcavity," J. Opt. Soc. Amer. B, Vol. 29, No. 12, pp. 3335-3343 (2012). [arXiv:1208.1124v1] Spotlight on Optics
  2. T. Kato, W. Yoshiki, R. Suzuki, and T. Tanabe, "Octagonal silica toroidal microcavity for controlled optical coupling," Appl. Phys. Lett., Vol. 101, 121101 (2012). [arXiv:1207.5974v1]
  3. 타나베 타카준, 카도쿠라 히사시, 쿠라모치 에이이치, 타니야마 히데아키, 나토미 마사야,접합 포토 닉 결정 미세 광 공진기의 총 실리콘 광 검출기, 레이저 연구, Vol. 40, No. 5, pp. 375-383 (2012).
  1. A. Yokoo, T. Tanabe, E. Kuramochi, and M. Notomi,"Ultrahigh-Q nanocavities written with a nanoprobe," Nano Lett. 11, 3634-3642 (2011).
  2. M. Notomi, A. Shinya, K. Nozaki, T. Tanabe, S. Matsuo, E. Kuramochi, T. Sato, H. Taniyama and H. Sumikura, "Low power nanophotonic devices based on photonic crystals towards dense photonic network on chip," IET Circuits, Devices & Systems, Vol. 5, No. 2, pp. 84-93 (2011). Invited Paper
  1. T. Tanabe, E. Kuramochi, H. Taniyama, and M. Notomi, "Electro-optic adiabatic wavelength shifting and Q switching demonstrated using a pin integrated photonic crystal nanocavity," Opt. Lett. 35, 3895-3897 (2010). [arXiv:1009.0329v1]. Spotlight on Optics
  2. E. Kuramochi, H. Taniyama, T. Tanabe, K. Kawasaki, Y.-G. Roh, and M. Notomi, " Ultrahigh-Q one-dimensional photonic crystal nanocavities with modulated mode-gap barriers on SiO2 claddings and on air claddings," Opt. Express 18, 15859-15869 (2010).
  3. 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). Press release 뉴스 및 뷰
  4. Y.-G. Roh, T. Tanabe, A. Shinya, H. Taniyama, E. Kuramochi, S. Matsuo, T. Sato, and M. Notomi, "Strong optomechanical interaction in a bilayer photonic crystal," Phys. Rev. B 81, 121101 (R) (2010). Editor's suggestion
  1. T. Tanabe, H. Sumikura, H. Taniyama, A. Shinya, and M. Notomi, "All-silicon sub-Gb/s telecom detector with low dark current and high quantum efficiency on chip," Appl. Phys. Lett. 96, 101103 (2010). [arXiv:1002.3207v1].  SPIE Newsroom
  2. T. Tawara, H. Kamada, T. Tanabe, T. Sogawa, H. Okamoto, P. Yao, P. Pathak, and S. Hughes, "Cavity-QED assisted attraction between a cavity mode and an exciton mode in a planar photonic-crystal cavity," Opt. Express 18, 2719-2728 (2010).
  3. T. Tanabe, M. Notomi, H. Taniyama, and E. Kuramochi, "Short pulse generation by adiabatic tuning of light," Opt. & Phot. News 20, 41 (2009). special issue "Optics in 2009"
  4. T. Tanabe, K. Nishiguchi, E. Kuramochi, and M. Notomi, "Low power and fast electro-optic silicon modulator with lateral pin embedded photonic crystal nanocavity," Opt. Express 17, 22505-22513 (2009).
  5. L.-D. Haret, T. Tanabe, E. Kuramochi, and M. Notomi, "Extremely low power optical bistability in silicon demonstrated using 1D photonic crystal nanocavity," Opt. Express 17, 21108-21117 (2009).
  6. T. Tanabe, M. Notomi, H. Taniyama, and E. Kuramochi, "Dynamic release of trapped light from an ultrahigh-Q nanocavity via adiabatic frequency tuning," Phys. Rev. Lett. 102, 043907 (2009). [arXiv:0812.4144v1] My suggestion
  7. 納富雅也, 타나베 타카준, 쿠라모치 에이이치, 「초고 Q 나노 공진기에 의한 슬로우 라이트 생성」,레이저 연구, Vo.. 37, No. 8, pp. 578-584 (2009).
  8. 타나베 타카즈미, 「고Q치 포토닉 결정 미소광 공진기에 있어서의 광학 비선형」,레이저 연구, Vol. 37, No. 1, pp. 32-37 (2009).해설 논문
  9. M. Notomi, E. Kuramochi, and T. Tanabe, "Large-scale arrays of ultrahigh-Q coupled nanocavities," Nature Photon. 2, 741-747 (2008). Press release 뉴스 및 뷰
  10. A. Shinya, S. Matsuo, Yosia, T. Tanabe, E. Kuramochi, T. Sato, T. Kakitsuka, and M. Notomi, "All-optical on-chip bit memory based on ultra high Q InGaAsP photonic crystal," Opt. Express 16, 19382-19387 (2008).
  11. E. Kuramochi, H. Taniyama, T. Tanabe, A. Shinya, and M. Notomi, "Ultrahigh-Q two-dimentional photonic crystal slab nanocavities in very thin barriers," Appl. Phys. Lett. 93, 111112 (2008).
  12. T. Tanabe, E. Kuramochi, H. Taniyama, and M. Notomi, "Trapping and delaying light with an ultrahigh-Q photonic crystal nanocavity," NTT Technical Review 6, No. 8 (2008).
  13. M. Notomi, T. Tanabe, A. Shinya, E. Kuramochi, and H. Taniyama, "On-chip all-optical switching and memory by silicon photonic crsytal nanocavities," Advances in Optical Technologies 2008, 568936 (2008). 검토
  14. T. Tanabe, H. Taniyama, and M. Notomi, "Carrier diffusion and recombination in photonic crystal nanocavity optical switches," IEEE / OSA J. Lightwave Technol. 26, 1396-1403 (2008).
  15. T. Tawara, H. Kamada, YH Zhang, T. Tanabe, NI Cade, D. Ding, SR Johnson, H. Gotoh, E. Kuramochi, M. Notomi, and T. Sogawa, "Quality factor control and lasing characteristics of InAs/InGaAs quantum dots embedded in photonic-crystal nanocavities,"Opt. Express 16, 5199-5205 (2008).
  16. 타나베 타카준, 신가 아키히코, 쿠라모치 에이이치, 가와니시 고키, 납부 마사야, 「실리콘 포토닉 결정 공진기를 이용한 전광 스위치 및 5GHz RZ(Return to Zero) 광 펄스열 변조」레이저 연구, Vol. 34, No. 12, pp. 848-852 (2006).
  17. T. Tanabe, E. Kuramochi, A. Shinya, H. Taniyama, and M. Notomi, "Photonic Crystal Nanocavities with Extremely Long Photon Lifetimes and Their Applications," The Review of Laser Engineering 36, 1310-1313 (2008).
  18. M. Notomi, T. Tanabe, A. Shinya, E. Kuramochi, H. Taniyama, S. Mitsugi, and M. Morita, "Nonlinear and adiabatic control of high-Q photonic crystal nanocavities," Opt. Express 15, 17458-17481 (2007).
  19. T. Tanabe, E. Kuramochi, H. Taniyama, and M. Notomi, "Caging light with a photonic crystal nanocavity," New Breeze 19, 20-21 (2007). 검토
  20. T. Tanabe, A. Shinya, E. Kuramochi, S. Kondo, H. Taniyama, and M. Notomi, "Single point defect photonic crystal nanocavity with ultrahigh quality factor achieved by using hexapole mode," Appl. Phys. Lett. 91, 021110 (2007).
  21. T. Tanabe, M. Notomi, E. Kuramochi, and H. Taniyama, "Large pulse delay and small group velocity achieved using ultrahigh-Q photonic crystal nanocavities," Opt. Express 15, 7826-7839 (2007).
  22. T. Tanabe, M. Notomi and E. Kuramochi, "Measurement of an ultra-high-Q photonic crystal nanocavity using a single-side-band frequency modulator," Electron. Lett. 43, 187-188 (2007).
  23. T. Tanabe, K. Nishiguchi, A. Shinya, E. Kuramochi, H. Inokawa, M. Notomi, K. Yamada, T. Tsuchizawa, T. Watanabe, H. Fukuda, H. Shinojima, and S. Itabashi, " Fast all-optical switching using ion-implanted silicon photonic crystal nanocavities," Appl. Phys. Lett. 90, 031115 (2007).
  24. 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). Press release 뉴스 및 뷰
  25. T. Tawara, T. Ito, T. Tanabe, K. Tateno, E. Kuramochi, M. Notomi and H. Nakano, "Highly Selective ZEP/AlGaAs Etching for Photonic Crystal Structures Using Cl2/HI/Xe Mixed Plasma," Jpn. J. Appl. Phys. 45, L917-L919 (2006).
  26. H. Yazawa, T. Tanabe, T. Okamoto, M. Yamanaka, F. Kannari, R. Itakura, and K. Yamanouchi, "Open-loop and closed-loop control of dissociative ionization of ethanol in intense laser fields," J. Chem. Phys. 124, 20314 (2006).
  27. A. Shinya, S. Mitsugi, T. Tanabe, M. Notomi, I. Yokohama, H. Takara, S. Kawanishi, "All-optical flip-flop circuit composed of coupled two-port resonant tunneling filter in 2-dimensional photonic crystal slab," Opt. Express 14, 1230-1235 (2006).
  28. E. Kuramochi, M. Notomi, S. Mitsugi, A. Shinya, T. Tanabe, T. Watanabe, "Ultrahigh-Q photonic crystal nanocavities realized by the local width modulation of a line defect," Appl. Phys. Lett. 88, 041112 (2006). high citation
  29. 나토미 마사야, 쿠라모치 에이이치, 신가 아키히코, 타나베 타카준, “실리콘을 이용한 2차원 포토닉 결정 슬래브 구조의 신개발”,레이저 연구, Vol. 34, No. 5. pp. 346-352 (2006).
  30. A. Shinya, T. Tanabe, E. Kuramochi, S. Kawanishi, and M. Notomi, "All-optical switch and digital light processing using photonic crystals," NTT Technical Review 3, 61-68 (2005).
  31. T. Tanabe, M. Notomi, A. Shinya, S. Mitsugi, and E. Kuramochi, "All-optical switches and memories fabricated on a silicon chip using photonic crystal nanocavities," Opt. & Phot. News 16, 35 (2005). special issue "Optics in 2005"
  32. T. Tanabe, M. Notomi, A. Shinya, S. Mitsugi, and E. Kuramochi, "All-optical switches on a silicon chip realized using photonic crystal nanocavities," Appl. Phys. Lett. 87, 151112 (2005). Photonics spectra Tech News
  33. T. Tanabe, M. Notomi, A. Shinya, S. Mitsugi, and E. Kuramochi, "Fast bistable all-optical switch and memory on silicon photonic crystal on-chip," Opt. Lett. 30, No. 19, 2575-2577 (2005). high citation
  34. M. Notomi, A. Shinya, S. Mitsugi, G. Kira, E. Kuramochi, and T. Tanabe, "Optical bistable switching action of Si high-Q photonic-crystal nanocavities," Opt. Express 13, 2678-2687 (2005). high citation
  35. T. Tanabe, F. Kannari, F. Korte, J. Koch, and B. Chichkov, "Influence of spatiotemporal coupling induced by ultrashort laser pulse shaper on the focused beam profile," Appl. Opt. 44, 1092-1098, (2005).
  36. J. Chen, H. Kawano, Y. Nabekawa, H. Mizuno, A. Miyawaki, T. Tanabe, F. Kannari, and K. Midorikawa, "Selective excitation between two-photon and three-photon fluorescence with engineered cost functions, " Opt. Express 12, 3408-3414 (2004).
  37. T. Tanabe, T. Okamoto, M. Yamanaka, and F. Kannari, "Feedback control for accurate shaping of ultrashort optical pulses prior to chirped pulse amplification," Jpn. J. Appl. Phys. 43, 1366-1375 (2004).
  38. T. Tanabe, M. Yamanaka, T. Okamoto, and F. Kannari, "Compensation for a transfer function of a regenerative amplifier to generate accurately shaped ultrashort pulses in both the amplitude and phase," IEEE J. Sel. Top. Quantum Electron. 10, 221-228 (2004).
  39. T. Yamazaki, T. Tanabe, F. Kannari, Y. Shida, and S. Fushimi, "Fiber delivery of ultrashort optical pulses pre-shaped on the basis of a backward propagation solver," Jpn. J. Appl. Phys. 42, 7313-7317 (2003).
  40. T. Tanabe, T. Okamoto, and F. Kannari, "Spectrum-holographic formation of fine etching patterns on a silicon surface with pulse-shaped femtosecond laser pulses," Jpn. J. Appl. Phys. 42, 5594-5597 (2003).
  41. R. Itakura, K. Yamanouchi, T. Tanabe, T. Okamoto, and F. Kannari, "Dissociative ionization of ethanol in chirped intense laser fields," J. Chem. Phys. 119, 4179-4186 (2003).
  42. T. Tanabe, H. Tanabe, Y. Teramura, and F. Kannari, "Spatiotemporal measurements based on spatial spectral interferometry for ultrashort optical pulses shaped by a Fourier pulse shaper," J. Opt. Soc. Amer. B 19, 2795-2802 (2002).
  43. K. Ohno, T. Tanabe, and F. Kannari, "Adaptive pulse shaping of phase and amplitude of an amplified femtosecond pulse laser by direct reference to frequency-resolved optical gating traces," J. Opt. Soc. Amer. B 19, 2781-2790 (2002).
  44. M. Sato, M. Suzuki, M. Shiozawa, T. Tanabe, K. Ohno, and F. Kannari, "Adaptive Pulse Shaping of Femtosecond Laser Pulses in Amplitude and Phase Through a Single-Mode Fiber by Referring to Frequency-Resolved Optical Gating Patterns," Jpn. J. Appl. Phys. 41, 3704-3709 (2002).
  45. 오노 히로히사, 타나베 타카준, 가미나리 후미히코, Francois PETIT, Frederic VERLUISE, Pierre TOURNOIS, 「광음향 분산 필터에 의한 펨토초 레이저 재생 증폭 펄스의 군 지연 분산 보상과 파형 성형」,레이저 연구, Vol. 29, No. 8, pp. 527-531 (2001).
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