出版物。

主要文章

  1. S. Fujii, K. Wada, R. Sugano, H. Kumazaki, S. Kogure, Y. K. Kato, and T. Tanabe, "Versatile tuning of Kerr soliton microcombs in crystalline微諧振器," 通訊物理學》,第 6 卷,第 1 期(2023 年)。. [arXiv:2206.13782 (2022)].
  2. 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,以及T. Tanabe, “Dissipative Kerr soliton microcombs for FEC-free optical communications over 100 channels,” (耗散式 Kerr 孤子微電腦用於超過 100 個通道的無 FEC 光通訊)” Opt. Express, Vol. 30, No. 2, pp. [arXiv:2111.00895 (2021)]。.
  3. S. Fujii, Y. Hayama, K. Imamura, H. Kumasaka, Y. Kakinuma, and T. Tanabe, “All-precision-machining fabrication of ultrahigh-Q晶體光學微諧振器的全精密加工製造”," Optica, Vol. 7, No. 6, pp.  [arXiv:2004.09026v1 (2020).].
  4. Y. Honda, W. Yoshiki, T. Tetsumoto, S. Fujii, K. Furusawa, N. Sekine, and T. Tanabe, “Brillouin lasing in coupled silica toroid微腔中的布里盧因激光” Appl. 112, 201105 (5 頁) (2018)。. (專題文章) (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. (編輯精選) [arXiv:1712.05091v1]
  6. S. Fujii, T. Kato, R. Suzuki, and T. Tanabe, “Third-harmonic blue light generation from Kerr clustered combs and dispersive waves.,” Opt. Lett. 第 42 卷,第 10 期,第 2010-2013 頁 (2017)。.
  7. Y. Ooka, T. Tetsumoto, A. Fushimi, W. Yoshiki, and T. Tanabe, “CMOS compatible high-Q photonic crystal nanocavity fabricated with photolithography on the silicon photonic platform,” (在矽光子平台上以光刻技術製造出與 CMOS 相容的高 Q 值光子水晶奈米空腔).光刻技術在矽光子平台上製造的 CMOS 兼容型高 Q 值光子水晶奈米空腔"。” Sci. Rep. Vol. 5, 11312 (2015)。.
  8. T. Tetsumoto, Y. Ooka, and T. Tanabe, “High-Q 使用具有高耦合效率的錐形納米纖維的 PhC 波導上的耦合諧振”。” Opt. Express, Vol. 23, No. 12, pp.
  9. W. Yoshiki and T. Tanabe, “All-optical switching using the Kerr effect in a silica toroid microcavity,” W. Yoshiki and T. Tanabe.” 光學快報》,第 22 卷,第 20 期,第 24332-24341 頁 (2014)。. [arXiv: 1407.2714]
  10. M. Notomi, E. Kuramochi, and T. Tanabe, "Large-scale arrays of ultrahigh-Q coupled nanocavities," (超高 Q 值耦合納米腔的大規模陣列)" 2, 741-747 (2008). 新聞稿 新聞與觀點
  11. 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.水晶奈米腔”。” 4, 477-483 (2010).
  12. T. Tanabe, M. Notomi, E. Kuramochi, A. Shinya, and H. Taniyama, “Trapping and delaying photons for one nanosecond in an ultra-small high-Q光子晶體奈米空腔中一納秒的光子誘捕和延遲”,"M.” 1, 49-52 (2007).
  1. Bowen Liu 和 Takasumi Tanabe,"Phase Noise Tolerance for Low-Pilot-Overhead OFDM Terahertz Links Beyond 64-QAM"。" arXiv:2508.05026 (2026). (準備提交)。
  2. Bowen Liu 和 Takasumi Tanabe,「以光子方法的優勢量化單載波 M-QAM 太赫茲無線通訊的相位雜訊容限」。光子方法的優勢" IEEE/Optica 光波技術期刊,早期存取 (2026)。. [arXiv:2509.16843v2]
  1. 袁軍,Bowen Liu,Maolin Daib,Yifan Mab,Shinji Yamashita,Takasumi Tanabe,Sze Yun Set,"Repetition-Rate-Difference Tunable Dual-Comb Fibre Fiber使用雙向 Lyot 篩選的雷射," O194, 114454 (2026)..
  2. L. Yang、R. Takabayashi、H. Moriguchi、H. Kodama、K. Miura、K. Wada、K. Yamaguchi、T. Murakami、H. Kumazaki、Y. Kakinuma、T. Tanabe 和 S. Fujii,"用於寬帶和相干頻率梳產生的結晶微諧振器的系統色散工程"。" APL Photonics, Vol. 10, No. 12, 126109 (2025)..
  3. 劉洋、Ryo Sugano、Ryomei Takabayashi、Hidetoshi Kanzawa、Hajime Kumazaki、Yongyong Zhuang、Xiaoyong Wei、Takasumi Tanabe 和 Shun Fujii,"Record-用於中長波紅外線非線性光子學的高 Q 值 AMTIR-1 微諧振器"。" Optics Letters, Vol. 50, No. 21, pp..
  4. Ryo Sugano、Junnosuke Kokubu、Ryo Otake、Shun Fujii 和 Takasumi Tanabe,「SiN-Si 異質整合的寬頻邊緣耦合器結構」。集成"," IEICE Transactions on Electronics,Vol. E108-C,No. 11,2024ECP5070 (2025)。.
  5. Koya Tanikawa, Mantaro Imamura, Ayaka Yomoda, Soma Kogure, Ryo Sugano, Satoki Kawanishi, Shun Fujii, and Takasumi Tanabe, "Soliton comb-based photonic microwave filter operating in 300 GHz band.工作在 300 GHz 頻段的光子微波濾波器"。" Photonics Research, Vol. 13, No. 5, pp..
  6. Riku Imamura, Shun Fujii, Keigo Nagashima, and Takasumi Tanabe, "Scalable fabrication of erbium-doped high-Q silica microtoroid resonators via sol-凝膠塗層," Optics Continuum, Vol. 4, No. 3, pp. [arXiv:2411.11018]
  7. Tatsuki Murakami, Koshiro Wada, Soma Kogure, Ryomei Takabayashi, Liu Yang, Riku Shibata, Hajime Kumazaki, Shinichi Watanabe, Atsushi Ishizawa、Takasumi Tanabe 和 Shun Fujii,"使用機械致動孤子微梳子的相干雙梳子光譜學和低雜訊光子微波生成架構機械致動孤子微梳子的相干雙梳子光譜學和低雜訊光子微波產生的架構"," Optics Letters, Vol. 50, No. 4, pp. [arXiv:2501.00349]
  8. Koya Tanikawa, Shun Fujii, Soma Kogure, Shuya Tanaka, Shun Tasaka, Koshiro Wada, Satoki Kawanishi, and Takasumi Tanabe, "Field Trial of Low-Latency, Short-Reach Optical Communication Employing a Microresonator Frequency Comb Light Source.短距離光學通訊採用微振子頻率梳光源"。" IEICE Transactions on Electronics,Vol. E108.C,No. 3,pp. 146-152 (2025)。.
  9. Soma Kogure, Ryo Sugano, Shun Fujii, and Takasumi Tanabe, "Transition between low-noise and high-noise modulation instability microcombs in a silicon nitride microresonator," (矽氮化物微振子中低雜訊與高雜訊調變不穩定微電腦之間的轉換)氮化矽微共振器中低噪音和高噪音調變不穩定性微電波之間的轉換"," 日本應用物理學報》,第 64 卷,第 1 期,012003 (2025)。.
  1. Riku Imamura、Shun Fujii、Ayata Nakashima 和 Takasumi Tanabe,「耦合微型諧振器中的異常點接近驅動模式鎖定」。" 光學快報》,第 32 卷,第 13 期,第 22280-22290 頁(2024 年)。. [arXiv:2309.05912 (2023)].
  2. Ryo Sugano, Junnosuke Kokubu, Takumasa Kodama, Sengji Jin, Jocelyn Hofs, Jianwei Zhang, Makoto Okano, and Takasumi Tanabe, "Compact photonic crystal spectrometer with resolution beyond the fabric precision.分辨力超越製造精度的緊湊型光子水晶光譜儀"。" 光學快報》,第 32 卷,第 12 期,第 21563-21576 頁(2024 年)。.
  3. Shun Fujii, Koshiro Wada, Soma Kogure, and Takasumi Tanabe, "Mechanically actuated Kerr soliton microcombs," (機械驅動的 Kerr 孤子微光輻射)" 雷射與光子學評論 2024, 2301329 (2024). [arXiv:2306.02005 (2023)].
  4. Shota Sota, Koichiro Handa, Shun Fujii, Takasumi Tanabe, Yoshinori Uzawa, Kentaro Furusawa, and Norihiko Sekine, "Fabrication of silicon nitride based high-Q microring resonators prepared by hot-wire CVD method基於氮化矽的高 Q 值微波諧振器的製作及其在頻率梳產生中的應用",《電子工程學報》,2011 年第 3 期。" 光學材料快報》,第 15 卷,第 5 期,第 1128-1138 頁 (2024)。.
  5. David Moreno、Shun Fujii、Ayata Nakashima、Deniz Lemcke、Atsushi Uchida、Pablo Sanchis 和 Takasumi Tanabe 「兩個混沌微共振頻率梳的同步化」。微振子頻率梳的同步化"。" Optics Express, Vol. 32, No. 2, pp..
  6. Tanabe, T. Jun, "Frontiers of integrated com-microcoms and device com-microcoms: a microcom roadmap", Laser Research, Vol.2024).
  7. Tanabe, T. Jun,「多波長光學通訊的光頻梳發生技術」。光電月刊》,第 43 卷,第 515 期,第 113-116 頁 (2024)。.(商業雜誌評論文章)
  1. Shuto Sugawara、Shun Fujii、Satoki Kawanishi 和 Takasumi Tanabe,「高 Q 值二氧化矽微共振器中拉曼光束的穩定性和相互相干性」。" Optics Continuum Vol. 2, Issue 7, pp.
  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微諧振器," 通訊物理學》,第 6 卷,第 1 期(2023 年)。. [arXiv:2206.13782 (2022)].
  3. Ryo Kanno、Shun Fujii、Soma Kigure、Nurul Ashikin Binti Daud 和 Takazumi Tanabe,「集成光頻梳光源和矽光子學」。光學聯盟》,第 34 卷,第 2 期,第 54-58 頁(2023 年)。. (商業雜誌評論文章)
  1. R. Tokunaga, K. Kinoshita, R. Imamura, K. Nagashima, R. Imafuku, K. Nakagawa, T. Tanabe, and H. Maki, "Carbon Nanotubes Coupled with Silica Toroid微腔作為硅集成光子學的發射器" 5, No. 10, pp..
  2. A. Nakashima, S. Fujii, R. Imamura, K. Nagashima, and T. Tanabe, “Deterministic generation of a perfect soliton crystal with a saturable吸收器,” 47, No. 6, pp. [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,以及T. Tanabe, “Dissipative Kerr soliton microcombs for FEC-free optical communications over 100 channels,” (耗散式 Kerr 孤子微電腦用於超過 100 個通道的無 FEC 光通訊)” Opt. Express, Vol. 30, No. 2, pp. [arXiv:2111.00895 (2021)]。.
  4. Riku Imamura、Tomoo Suzuki、Ranmaru Ishida、Shun Fujii、Set Ji Yong、Shinji Yamashita 和 Takazumi Tanabe,《用於開發緊湊型鎖模激光器的摻铒微光諧振器的製造和過飽和吸收特性》。Transactions of the Institute of Electrical Engineers of Japan C, Vol. 142, No. 3, pp.
  5. T. Tanabe, K. Yoshiki and K. Yoube, 'Development of on-chip optical switch based on optical Kerr effect'.光學聯盟》,第 33 卷,第 4 期,第 1-6 頁 (2022)。.(商業雜誌評論文章)
  6. Tanabe, T. Jun, 'Integrated optical frequency comb light sources and silicon photonics'.OPTRONICS Monthly, Vol. 41, No. 483, pp.(商業雜誌評論文章)
  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 microavity,” (單晶 MgF2臨界切割深度的理論方法及在微腔中的應用)微腔"。” 精密工程》,第 73 卷,第 234-243 頁(2022 年)。.
  2. T. S. L. P. Suzuki, A. Nakashima, K. Nagashima, R. Ishida, R. Imamura, S. Fujii, S. Y. Set, S. Yamashita, and T. Tanabe, "Design of a passively mode-locking低語廊模式微激光器的設計"。" J. Opt. Soc. Amer. B, Vol. 38, No. 10, pp.. [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 superconduct nanowires under microwave radiation,” (微波輻射下碳納米管培養的氮化鈮超導奈米線的相滑操控)氮化物超導奈米線在微波輻射下的相位滑移"。” 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晶體光學微諧振器的全精密加工製造”。” Optica, Vol. 7, No. 6, pp.. [arXiv:2004.09026v1 (2020).].
  3. S. Fujii and T. Tanabe, “Dispersion engineering and measurement of whispering gallery mode microresonators for Kerr frequency comb產生”。” Nanophotonics, Vol. 9, No. 5, pp.. (審閱論文).
  4. Tanabe, T., Fujii, S., Wada, K., Kakinuma, Y., 'Optical frequency comb using micro optical resonators'. IEICE期刊,第103卷,第11期,第1105-1112頁(2020年)...(說明文章)
  5. Tanabe, T. Jun, 'Development of an optical frequency light source using micro optical resonators', Photonics News, Vol. (評論文章)。
  1. Y. Zhuang, H. Kumazaki, S. Fujii, R. Imamura, N. A. B. Daud, R. Ishida, H. Chen, and T. Tanabe, “Coupling of a whispering gallery mode to a silicon chip with photonic crystal”.光子晶體的矽晶片耦合"," 44, No. 23, pp.. (編輯精選) [arXiv:1909.06029v1]
  2. T. Tanabe, S. Fujii, and R. Suzuki, “Review on microresonator frequency comb,” Tanabe, S. Fujii, and R. Suzuki.” Jpn. J. Appl. Phys., Vol. 58, SJ-0801 (9 pages) (2019)。. (進度檢討文件)
  3. S. Fujii、S. Tanaka、M. Fuchida、H. Amano、Y. Hayama、R. Suzuki、Y. Kakinuma 和 T. Tanabe,“Octave-wide phase-matched four-wave mixing in分散工程結晶微諧振器中的八度寬相位匹配四波混合”。” Opt. Lett. 第 44 卷,第 12 期,第 3146-3149 頁 (2019)。. (編輯精選) [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,” (全光處理路線圖)。” J. Opt. 第 21 卷,第 6 期,063001 (55 頁) (2019). (評論文章)
  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 polarised dual-pumping.正交極化雙泵浦”。” IEEE Phot. J., Vol. 11, No. 1, 6100511 (11 pages) (2019)。.
  6. Tanabe, T., Fujii, S., Suzuki, R., Kakinuma, Y., 'Optical frequency comb using micro optical resonators'.光學技術接觸》,第 57 卷,第 3 期,第 16-23 頁 (2019)。...(說明文章)
  1. 集成 pi-n 二極體“,” AIP Adv. Vol. 8, No. 10, 105224 (7 pages) (2018)。.
  2. S. Fujii、Y. Okabe、R. Suzuki、T. Kato、A. Hori、Y. Honda 和 T. Tanabe,“Analysis of mode coupling assisted Kerr comb generation in normal分散系統中的模式耦合輔助 Kerr 梳生成分析”。” 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 頁) (2018)。.
  4. Y. Honda, W. Yoshiki, T. Tetsumoto, S. Fujii, K. Furusawa, N. Sekine, and T. Tanabe, “Brillouin lasing in coupled silica toroid微腔中的布里盧因激光” Appl. Phys. Lett. 第 112 卷,201105 (5 頁) (2018)。. (精選文章) (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. (編輯精選)。 [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 -recision machining,” (使用超精密加工技術開發 CaF2-brass hybrid WGM microcavity)。-超精密加工"。” 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. A. Hori, and T. Tanabe.模式微腔中 Kerr 梳和受激拉曼梳之間的轉換",J. Opt. Soc. Amer. B,第 35 卷,第 1 期,第 100-106 頁 (2018)。. (編輯精選)。 [arXiv:1712.04601v1].
  8. Tanabe, T., R. Suzuki, S. Fujii, K. Kubota, M. Fuchida and Y. Kakinuma, 'Development of a compact optical frequency comb light source using micro optical resonators'.精密工程期刊》,第 84 卷,第 8 期,第 686-691 頁 (2018)。.(評論文章)
  9. T. Tanabe, R. Suzuki, T. Tetsumoto, T. Tomohiro, and Y. Kakinuma, "Fabrication and application of high-Q micro-optical resonators," Applied Physics, Vol. 87, No.(評論文章)。
  10. Shun Fujii, Ryo Suzuki, Atsuhiro Hori, Hirohiro Kubota and Takazumi Tanabe, 'Numerical simulation method for carcoms in microcavities', Laser Research, Vol. 46, No. 2, pp.
  11. T. Tanabe, R. Suzuki, S. Fujii, H. Kubota, and A. Hori, "Microcomb generation using micro optical resonators," Laser Research, Vol. 46, No. 2, pp. (評論文章)
  1. S. Fujii, A. Hori, T. Kato, R. Suzuki, Y. Okabe, W. Yoshiki, A. C.-Jinnai, and T. Tanabe, "Effect on Kerr comb generation in a clockwise and counter- clockwise mode coupled microcavity.順時針模式耦合微腔中的 Kerr 梳生成的影響"。" Opt. Express, Vol. 25, No. 23, pp. [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," (由 Kerr 梳子輔助的環狀微腔中光機械參數振盪的抑制)" Opt. Express, Vol. 25, No. 23, pp.
  3. T. Tetsumoto, H. Kumazaki, K. Furusawa, N. Sekine, and T. Tanabe, "Design, fabrication and characterisation of a high Q 具有正交諧振模式的矽納米梁腔"。" 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 Q低語廊模式微腔”。” Sci. Rep. 7, 28758 (2017)。.
  5. N. A. B. Daud, Y. Ooka, T. Tabata, T. Tetsumoto, and T. Tanabe, "Electro-optic modulator based on photolithography fabricated p-i-n integrated photonic crystal nanocavity," (基於光刻技術製造的p-i-n集成光子納米腔的電光調制器)晶體奈米空腔"。" IEICE Transactions on Electronics, Vol. E100-C, No. 8, pp..
  6. Y. Mizumoto, H. Kangawa, H. Itobe, T. Tanabe, and Y. Kakinuma, "Influence of crystal anisotropy on subsurface damage in ultra-precision cylindrical turning in CaF2.車削 CaF2," Precis. Eng. 第 49 卷,第 104-114 頁 (2017)。.
  7. S. Fujii, T. Kato, R. Suzuki, and T. Tanabe, "Third-harmonic blue light generation from Kerr clustered combs and dispersive waves," S. Fujii, T. Kato, R. Suzuki, and T. Tanabe." Opt. Lett. 第 42 卷,第 10 期,第 2010-2013 頁 (2017)。.
  8. Y. Ooka, T. Tetumoto, N. A. B. Daud, and T. Tanabe, "Ultrasmall in-plane photonic crystal demultiplexers fabricated with photolithography," 「超小型平面內光子晶體解多工器的光刻製造」。" Opt. Express, Vol. 25, No. 2, pp.
  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微腔中的橫向模式互動"。" Opt. Express, Vol. 25, No. 2, pp.
  10. T. Tanabe, "Optical carcom generation by micro optical resonators," Optics, Vol. 46, No. (評論文章)
  1. S. Vyas, T. Tanabe, M. Tiwari, and G. Singh, "Chalcogenide photonic crystal fibres for ultraflat mid-infrared supercontinuum generation," (用於超扁平中紅外線超連續發光的鹵化物光子晶體光纖)" Chin. Opt. Lett. vol. 14, No. 12, pp.
  2. W. Yoshiki, Y. Honda, M. Kobayashi, T. Tetsumoto, and T. Tanabe, "Kerr-induced controllable adiabatic frequency conversion in an ultra-high Q silica環狀微腔中的可控絕緣頻率轉換"," Opt. Lett. 第 41 卷,第 23 期,第 5482-5485 頁 (2016)。.
  3. A. C.-Jinnai, T. Kato, S. Fujii, T. Nagano, T. Kobatake, and T. Tanabe, "Broad bandwidth third-harmonic generation via four-wave mixing and stimulated微腔中的拉曼散射產生寬頻三諧波"。" Opt. Express, Vol. 24, No. 23, pp.
  4. S. Vyas、T. Tanabe、G. Singh 和 M. Tiwari,「高度非線性 Ge11.5As24Se64.5 光子晶體光纖中的超平寬帶超連續」。" 烏克蘭 J. Phys. Opt. 第 17 卷,第 3 期,第 132-139 頁 (2016)。.
  5. A. Godbole, P. P. Dali, V. Janyani, T. Tanabe, and G. Singh, "All optical scalable logic gate using Si3N4 微波諧振器"。" 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 for the wide spanning optical Kerr frequency comb.用於寬跨度光 Kerr 頻梳的微腔的色散裁剪"。" J. Opt. Soc. Amer. B, Vol. 33, No. 9, pp..
  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 in single crystal calcium fluoride," (超精密單晶氟化鈣圓柱車削中鼻端半徑對表面完整性的影響).單晶氟化鈣的超精密圓柱車削中鼻端半徑對表面完整性的影響"。" Procedia CIRP, Vol. 45, 139-142 (2016)。.
  8. T. Kato, A. C.-Jinnai, T. Nagano, T. Kobatake, R. Suzuki, W. Yoshiki, and T. Tanabe, "Hysteresis behaviour of Kerr frequency comb generation in a high質因子whispering gallery mode microcavity 中 Kerr 頻率梳生成的滯後行為"。" Jpn.J.Appl.Phys.Vol.55,No.7,072201 (2016)。. (焦點。)
  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.基於懸浮碳納米管的氮化铌納米線中的熱量和量子相位滑移"。" 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 stabilisation," (雙材質結晶whispering gallery mode microcavity結構用於熱-光-機械穩定)熱-光-機械穩定"。" AIP Advances, Vol. 6, No. 5, 055116 (2016)。.
  11. Y. Ooka, N. A. B. Daud, T. Tetsumoto, and T. Tanabe, "Compact resonant electro-optic modulator using randomness of a photonic crystal waveguide," (利用光子晶體波導的隨機性的緊湊型共振電光調制器)" Opt. Express, Vol. 24, No. 10, pp.
  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," Kobatake, T. Kato, H. Itobe, Y. Nakagawa, and T. Tanabe." IEEE Photonics Journal,Vol.8,No.2,4501109 (2016).
  13. Takumi Kato、Tetsunori Jinnai、Tomoya Kobatake 和 Takazumi Tanabe,"使用矽和 Lloyd's 微光學諧振器的模式鎖定微蜂巢產生及其理論研究"。Laser Research, Vol. 44, No. 7 pp.
  14. Misako Kobayashi, Jiro Nishimura and Takazumi Tanabe, 'Implementation technology of silicatroid micro-optical resonators for temperature sensing'.雷射研究》,第 44 卷,第 3 期,第 198-202 頁 (2016).
  15. Kozumi Tanabe, Yasuhiro Kakinuma, Yoshitatsu Mizumoto, Yosuke Nakagawa, Mika Fuchida, 'Fabrication of micro optical resonators using ultra-precision machining', O plus E, Vol. 38, No. 11, pp. (評論文章)
  1. W. Yoshiki, A. C.-Jinnai, T. Tetsumoto, and T. Tanabe, "Observation of energy oscillation between strongly-coupled counter-propagating ultra-high Q低語廊模式之間的能量振盪" Opt. Express, Vol. 23, No. 24, pp.
  2. A. C.-Jinnai, W. Yoshiki, and T. Tanabe, "Broad bandwidth pulse propagation through an ultrahigh-Q microcavity with a chirped pulse," (啁啾脈衝通過超高Q微腔的寬帶脈衝傳播)" 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 the fabrication of CaF2 optical micro resonators.," CIRP Annals - Manufacturing Technology,Vol. 64,No. 1,117-120 (2015)。.
  4. J. Nishimura、M. Kobayashi、R. Saito 和 T. Tanabe,「使用矽膠環狀微腔偵測 NaCl 離子」。" 應用光學》,第 54 卷,第 20 期,第 6391-6396 頁 (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," (矽光子平台上光刻製造的 CMOS 相容高 Q 值光子奈米空腔).矽光子平台上利用光刻技術製造的 CMOS 相容高 Q 值光子水晶奈米空腔"。" 科學報告,第 5 卷,11312 (2015)。.
  6. T. Tetsumoto, Y. Ooka, and T. Tanabe, "High-Q 使用具有高耦合效率的錐形納米纖維的 PhC 波導上的耦合諧振"。" Opt. Express, Vol. 23, No. 12, pp..
  7. R. Suzuki, T. Kato, T. Tetsumoto, and T. Tanabe, "Octagonal toroidal microcavity for mechanically robust optical coupling," R. Suzuki, T. Kato, T. Tetsumoto, and T. Tanabe." 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 on single crystal calcium fluoride," (基於超精密圓柱車削的晶體各向異性實驗研究).各向異性的實驗研究"。" 精密工程》,第 40 卷,第 172-181 頁(2015 年)。.
  1. W. Yoshiki and T. Tanabe, "Performance of Kerr bistable memory in silicon nitride microring and silica microtoroid," W. Yoshiki and T. Tanabe, 「氮化矽微鑽和矽微軌道中的 Kerr 雙穩態記憶體的性能」" 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 the Kerr effect in a silica toroid microcavity," W. Yoshiki and T. Tanabe." 光學快報》,第 22 卷,第 20 期,第 24332-24341 頁 (2014)。. [arXiv: 1407.2714]
  3. A. Fushimi, H. Taniyama, E. Kuramochi, M. Notomi, and T. Tanabe, "Fast calculation of the quality factor for the two-dimensional photonic crystal slab納米空腔的品質因數的快速計算"。" 光學快報》,第 22 卷,第 19 期,第 23349-23359 頁 (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-crecision turning," (超精密車削導致單晶氟化鈣表面完整性的實驗分析)超精密車削所造成的單晶氟化鈣表面完整性的實驗分析"。" Procedica CIRP, Vol. 13, pp.
  5. T. Tetsumoto 和 T. Tanabe,「用於光輻射壓力驅動 MOMS 開關的高 Q 值硅拉鍊腔」。" AIP Advances, Vol. 4, 077137 (2014)。. [arXiv:1405.3722]
  6. A. Fushimi 和 T. Tanabe,「使用單一波長操作的全光邏輯閘門」。" 光學快報》,第 22 卷,第 4 期,第 4466-4479 頁 (2014)。.
  7. R. Fushimi and T. Tanabe, 'Structural fluctuation analysis of all-optical logic gate with single-mode operation' (單模操作全光邏輯閘門的結構波動分析)Laser Research, Vol. 42, No. 3, pp.
  1. H. Kudo, R. Suzuki and T. Tanabe, "Whispering gallery modes in hexagonal microcavities," H. Kudo, R. Suzuki and T. Tanabe." 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," H. Kudo, Y. Ogawa, T. Kato, A. Yokoo, and T. Tanabe." 102, 211105 (2013)。. [arXiv:1302.5488]
  1. W. Yoshiki and T. Tanabe, "Analysis of bistable memory in silica toroid microcavities," W. Yoshiki 和 T. Tanabe." J. Opt. Soc. Amer. B, Vol. 29, No. 12, pp. [arXiv:1208.1124v1] 聚焦光學
  2. T. Kato, W. Yoshiki, R. Suzuki, and T. Tanabe, "Octagonal silica toroidal microcavity for controlled optical coupling," (用於受控光耦合的八角形矽膠環狀微腔)" 101, 121101 (2012)。. [arXiv:1207.5974v1]
  3. T. Tanabe, H. Tsunokura, E. Kuramochi, H. Taniyama, M. Notomi, "p-i-n。基於結點光子晶體微光諧振器的全矽光偵測器",《雷射研究》,第 40 卷,第 5 期,第 375-383 頁 (2012)。.
  1. A. Yokoo, T. Tanabe, E. Kuramochi, and M. Notomi, "Ultrahigh-Q nanocavities written with a nanoprobe," (用奈米探針寫入超高 Q 值奈米空腔)" 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 networks on chip," (基於光子晶體的低功耗納米光子器件,面向芯片上的密集光子網絡)光子晶體的低功耗奈米光子裝置,朝向晶片上的密集光子網路"。" IET Circuits, Devices & Systems, Vol. 5, No. 2, pp. 特邀論文
  1. T. Tanabe, E. Kuramochi, H. Taniyama, and M. Notomi, "Electro-optic adiabatic wavelength shifting and Q switching demonstrated using a p-i-n集成光子水晶納米腔體展示的電光絕緣波長轉換和 Q 值切換"," Opt. lett. 35, 3895-3897 (2010)。. [arXiv:1009.0329v1]. 聚焦光學
  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," (《超高 Q 值一維光子晶體奈米艙在 SiO2 包層和空氣包層上具有調製模隙障礙的超高 Q 值一維光子晶體奈米空腔"。" 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.納米腔","Sub-femtojoule all-optical switching using a photonic crystal" 4, 477-483 (2010). 新聞稿 新聞與觀點
  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," (雙層光子晶體中的強光機械相互作用)晶體"。" Phys. Rev. B 81, 121101(R) (2010)。. 編輯建議。
  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.在晶片上," 96, 101103 (2010)。. [arXiv:1002.3207v1].  SPIE 新聞室。
  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平面光子晶體空腔中的激子模式之間的吸引力"。" 光學快報 18, 2719-2728 (2010)。.
  3. T. Tanabe, M. Notomi, H. Taniyama, and E. Kuramochi, "Short Pulse Generation by adiabatic tuning of light," Tanabe, M. Notomi, H. Taniyama, and E. Kuramochi." 光學與攝影新聞 20, 41 (2009)。. 特刊「2009 年的光學」。"
  4. T. Tanabe, K. Nishiguchi, E. Kuramochi, and M. Notomi, "Low power and fast electro-optic silicon modulator with lateral p-i-n embedded photonic crystal奈米空腔"。" 光學快報 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納米腔"," 光學快報 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," 102, 043907 (2009)。. [arXiv:0812.4144v1] 我的建議
  7. M. Notomi, T. Tanabe and E. Kuramochi, 'Slow light generation by ultrahigh-Q nanocavities'.Laser Research, Vo. 37, No. 8, pp.
  8. Tanabe, T., 「高 Q 值光子晶體微光諧振器中的光非線性」。Laser Research, Vol. 37, No. 1, pp.說明文件
  9. M. Notomi, E. Kuramochi, and T. Tanabe, "Large-scale arrays of ultrahigh-Q coupled nanocavities," (超高 Q 值耦合納米腔的大規模陣列)" 2, 741-747 (2008). 新聞稿 新聞與觀點
  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光子晶體," 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.," 93, 111112 (2008)。.
  12. T. Tanabe, E. Kuramochi, H. Taniyama, and M. Notomi, "Trapping and delaying light with an ultrahigh-Q photonic crystal nanocavity," Tanabe, E. Kuramochi, H. Taniyama, and M. Notomi." NTT 技術評論 6,第 8 期 (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," (矽光子納米空腔的片上全光切換與記憶)" 光學技術進展 2008,568936 (2008)。. 審查
  14. T. Tanabe, H. Taniyama, and M. Notomi, "Carrier diffusion and recombination in photonic crystal nanocavity optical switches," Tanabe, H. Taniyama, and M. Notomi." IEEE/OSA J. Lightwave Technol. 26, 1396-1403 (2008).
  15. T. Tawara, H. Kamada, Y-H Zhang, T. Tanabe, N. I. Cade, D. Ding, S. R. 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.InAs/InGaAs 量子點嵌入光子晶體奈米空腔的品質因數控制與發光特性","InAs/InGaAs 量子點嵌入光子晶體奈米空腔的品質因數控制與發光特性"光學快報 16, 5199-5205 (2008)。.
  16. Kozumi Tanabe、Akihiko Niinke、Eiichi Kuramochi、Goki Kawanishi、Masaya Natomi,「使用矽光子水晶諧振器的全光開關和 5 GHz RZ(歸零)光脈衝列調製」。Laser Research, Vol. 34, No. 12, pp.
  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).應用," 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," (高Q光子晶體奈米空腔的非線性與絕緣控制)奈米空腔的非線性和絕熱控制" 光學快報 15, 17458-17481 (2007)。.
  19. T. Tanabe、E. Kuramochi、H. Taniyama 和 M. Notomi,「以光子水晶奈米腔籠光」,New Breeze 19、20-21 (2007)。. 審查
  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.實現了超高品質因數的單點缺陷光子晶體奈米空腔"。" 應用物理學報 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納米腔體," 光學快報 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," Tanabe, M. Notomi and E. Kuramochi, 「使用單側帶頻率調制器測量超高 Q 值的光子水晶納米腔」。" 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 和 S. Itabashi,.「使用離子植入矽光子水晶奈米空腔的快速全光切換」。" 90, 031115 (2007)。.
  24. T. Tanabe, M. Notomi, E. Kuramochi, A. Shinya, and H. Taniyama, "Trapping and delaying photons for one nanosecond in an ultra-small high-Q納米空腔中的一納秒光子誘捕和延遲"。" 1, 49-52 (2007). 新聞稿 新聞與觀點
  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.使用 Cl2/HI/Xe 混合等離子體"。" 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 ionisation of ethol in intense laser fields.的開環和閉環控制"。" J. Chem. Phys. 124, 20314 (2006)。.
  27. A. Shinya, S. Mitsugi, T. Tanabe, M. Notomi, I. Yokohama, H. Takara and S. Kawanishi, "All-optical flip-flop circuit composed of coupled two-port resonant tunneling filter二維光子水晶板中的耦合雙端口隧穿濾波器組成的全光翻轉器電路"。" Opt. Express 14, 1230-1235 (2006)。.
  28. E. Kuramochi, M. Notomi, S. Mitsugi, A. Shinya, T. Tanabe, T. Watanabe, "Ultrahigh-Q photonic crystal nanocavities realised by the local width modulation of a line defect.線缺陷的局部寬度調變實現的超高 Q 值光子晶體奈米空腔"。" 88, 041112 (2006)。. 高引用
  29. M. Notomi, E. Kuramochi, A. Shinke and T. Tanabe, 'New development of two-dimensional photonic crystal slab structures using silicon'.34, No. 5. pp.
  30. A. Shinya、T. Tanabe、E. Kuramochi、S. Kawanishi 和 M. Notomi,「使用光子晶體的全光開關和數位光處理」。" NTT 技術評論 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," (利用光子晶體奈米空腔在矽晶片上製造全光開關與記憶體).納米腔體"," Opt. & Phot. News 16, 35 (2005). 特刊「2005 年的光學」。"
  32. T. Tanabe, M. Notomi, A. Shinya, S. Mitsugi, and E. Kuramochi, "All-optical switches on a silicon chip realised using photonic crystal nanocavities," Tanabe, M. Notomi, A. Shinya, S. Mitsugi, and E. Kuramochi." 87, 151112 (2005)。. 光子學光譜 科技新聞
  33. T. Tanabe、M. Notomi、A. Shinya、S. Mitsugi 和 E. Kuramochi,「矽光子晶體晶片上的快速雙穩態全光開關和記憶體」。" 30, No. 19, 2575-2577 (2005). 高引用
  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," (矽高 Q 值光子晶奈米空腔的光雙穩轉動作)" 光學快報 13, 2678-2687 (2005)。. 高引用
  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," (超短激光脈衝整形器引起的時空耦合對聚焦光束剖面的影響)光束輪廓的影響"。" 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.光子螢光之間的選擇性激發"。" 光學快報 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," (啁啾脈衝放大前超短光脈衝準確整形的回饋控制)放大"。" Jpn.J.Appl.Phys.43、1366-1375 (2004)。.
  38. T. Tanabe, M. Yamanaka, T. Okamoto, and F. Kannari, "Compensation for the transfer function of a regenerative amplifier to generate accurately shaped ultashort pulses in both amplitude超短脈衝在振幅和相位上的補償"。" 10, 221-228 (2004).
  39. T. Yamazaki, T. Tanabe, F. Kannari, Y. Shida, and S. Fushimi, "Fibre delivery of ultrashort optical pulses pre-shaped on the basis of a backward propagation solver.傳播求解器"。" 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," (用脈衝形飛秒激光脈衝在矽表面形成微細蝕刻圖案的全息圖譜)激光脈衝," Jpn.J.Appl.Phys.42,5594-5597 (2003)。.
  41. R. Itakura, K. Yamanouchi, T. Tanabe, T. Okamoto, and F. Kannari, "Dissociative ionisation of ethanol in chirped intense laser fields," R. Itakura, K. Yamanouchi, T. Tanabe, T. Okamoto, and F. Kannari." 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 the Fourier pulse shaper," (傅立葉脈衝整形器塑造的超短光傅立葉脈衝整形器塑造的超短光脈衝的時空光譜干涉測量"。" J. Opt. Soc. Amer. B 19, 2795-2802 (2002)。.
  43. K. Ohno, T. Tanabe, and F. Kannari, "Adaptive pulse shaping of the phase and amplitude of an amplified femtosecond pulse laser by direct reference to頻率分辨光閘軌跡"。" 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 Fibre by Referring單模光纖的振幅和相位自適應脈衝整形"。" Jpn.J.Appl.Phys.41,3704-3709 (2002)。.
  45. Kimihisa OHNO、Kojun TANABE、Fumihiko KAMINARI、Francois PETIT、Frederic VERLUISE、Pierre TOURNOIS,「使用光聲色散濾波器的飛秒激光再生放大脈衝的群延色散補償和波形整形」。Laser Research, Vol. 29, No. 8, pp.
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