Invited talks


International conferences (including post-deadline papers)

Workshops/Domestic meetings

International Seminars

Domestic seminars


International conferences (Including post-deadline papers)

  1. T. Taira and T. Kobayashi, "Frequency doubled and Q-switched Nd:YVO4 laser", post deadline paper of Compact Blue-Green Lasers, Topical Meeting, Salt Lake City, UT, Paper PD8 (1994). (Post-Deadline Paper)

  2. T. Taira, "Tunable Yb:YAG microchip lasers," The 2nd International Symposium on Laser, Scintillaor and Nonlinear Optical Materials, Lyon FRANCE, 31 May (2000).

  3. T. Taira, J. Saikawa, and N. Pavel, "Solid-State diode end-pumped Yb:YAG microchip lasers," FSRC Frontier Science Research Conferences, La Jolla International School of Science, La Jolla, Los Angeles, USA, November (2000).

  4. T. Taira, "Chroma-chip lasers for nonlinear wavelength conversion and photorefractive optical memory," International Photonics Conference IPC2000, Hsinchu, Taiwan, F-T3-E01, ROC, 15 December (2000).

  5. T. Taira, "Highly doped Nd:YAG ceramics for microchip lasers," The 9th International Symposium on Laser Spectroscopy (SOLS2001), Nov. 2 and 3, 2001, The Nuclear Training Center in Korea Atomic Energy Research Institute (KAERI), Daejeon, Korea, V-1, p 7 (2001).

  6. T. Taira, "The promise of ceramic lasers, " SPRC Annual Report 2002, Annual Meeting, Stanford, CA, USA, Sep. 18, p. 167 (2002).

  7. T. Taira, "Promise of QPM-MgO:LiNbO3 devices:fabrication process and highly efficient wavelength conversion at room temperature," Conference on Lasers and Electro-Optics CLEO 2004, San Francisco, California, USA, May 16-21, CMA4 (2004).

  8. T. Taira, "Edge pumped Yb:YAG microchip laser," Advanced Lasers and Their Applications, Cheju National University, Jeju-do, South Korea, May 12-14, pp. 75-76 (2005).

  9. M. Tsunekane, T. Dascalu, and T. Taira, "High-power, diode edge-pumped, single-crystal Yb:YAG/ceramic YAG composite microchip Yb:YAG laser for material processing," Conference on Lasers and Electro-Optics CLEO 2005, Baltimore, Maryland, USA, May 22-27, CTuZ3 (2005).

  10. T. Taira, "Laser operation with near quantum-defect slope efficiency in Nd-vanadate lasers," CLEO/PR 2005, Tokyo, Japan, July 11-15, CWI2-1-INV, pp. 613-614 (2005).

  11. T. Taira, "The promise of laser ceramics as high power microchip laser," International Symposium, Topical Problems of Nonlinear Wave Physics 2005, High-field Laser Physics (NWP-2), St.-Petersburg-Nyzhny Novgorod, Russia, 2-9 August, pp. 127-128 (2005).

  12. A. Ikesue, K. Yoshida, T. Kamimura, Y.L. Aung, and T. Taira, "Ceramic lasers of normal and composite type," E-MRS 2005 Fall Meeting, 1st International Laser Ceramics Symposium, Warsaw University of Technology, Poland, September 5-9, p. 225 (2005).

  13. T. Taira, "Ceramic micro solid-state lasers," E-MRS 2005 Fall Meeting, 1st International Laser Ceramics Symposium, Warsaw University of Technology, Poland, September 5-9, p. 228 (2005).

  14. T. Taira, "Thick periodically poled MgO-doped LiNbO3 device and their applications," The 18th Annual Meeting of the IEEE Lasers & Electro-Optics Society (LEOS 2005), Hilton Sydney, Sydney, Australia, 23-27 October, WF5, pp. 497-498 (2005).

  15. T. Taira and M. Tsunekane, "High-power edge-pumped Yb:YAG single crystal/YAG ceramics hybrid microchip laser," Defense & Security Symposium 2006, Orland, Florida USA, 17 April, 6216-08 (2006).

  16. T. Taira, "High brightness-temperature micro-lasers," ROMOPTO 2006, Sibiu, Romania, August 28-31, I.I.3 (2006).

  17. T. Taira, Y. Sato, J. Saikawa and A. Ikesue, "Characteristics of RE3+-ion doped garnet ceramics," Frontiers in Optics 2006, 2nd Laser Ceramic Symposium 2006, Tokyo, Nov.10-11, 10aAS5 (2006).

  18. T. Taira, "High power, tunable microchip lasers," CLEO/Europe 2007, Munich, Germany, June 17-22, CA3-3-MON (2007).

  19. T. Taira, "Ceramic lasers," Journées Nationales des Cristaux pour l’Optique (JNCO), OPTIQUE Grenoble 2007, Campus universitaire de St-Martin d’Hères, Grenoble, France, July 2-5, JNCO-JE1 (2007).

  20. T. Taira and Y. Sato, "Thermal conductivity model of optical materials," SPIE Defense & Security 2008, Orland, Florida, USA, March 16-20, 6952-13 (2008).

  21. T. Taira, "Ceramic lasers and ceramic-crystal lasers," 4th International Workshop on Crystal Growth Technology (IWCGT-4), Beatenberg, Switzerland, May 18-25 (2008).

  22. T. Taira, "Ceramic microchip lasers," 17th International Laser Physics Workshop (LPHYS’08), NTNU, Trondheim, Norway, June 30-July 4, p. 229 (2008).

  23. T. Taira, "High brightness ceramic microchip laser and its application," 4th Laser Ceramics Symposium (2008LCS), Shanghai, China, November 10-14, TCCA-19 (2008).

  24. B. Boulanger, P. Brand, Y. Petit, P. Segonds, C. Felix, B. Menaert, T. Taira, and H. Ishizuki, "Angular quasi-phase-matching: theory and experiments," LASE 2009, SPIE Photonics West, San Jose, California, USA, January 24-29(2009).

  25. J. Akiyama, Y. Sato, and T. Taira, "New generation of laser ceramics with anisotropic materials," OSA Topical Meeting on Advanced Solid-State Photonics, Denver, Colorado, USA, February 2-4, MF1 (2009). (Post-Deadline Paper)

  26. T. Taira, "High brightness microchip lasers," Cheju National University, Jeju-do, South Korea, May 6-9 (2009).

  27. J. Akiyama, Y. Sato, and T. Taira, “New fabrication process of anisotropic laser ceramics,” CLEO/Europe 2009, Munich, Germany, June 14-19, CA9.3 (2009).

  28. T. Taira, “Ignition of automotive engine by micro-lasers,” The 5th International Congress on Laser Advanced Materials Processing (LAMP 2009), Kobe, Japan, July 1, LPM 7-3, #345 (2009).

  29. T. Taira, J. Akiyama, and Y. Sato, "Fabrication and characterization of anisotropic laser ceramics," 18th International Laser Physics Workshop (LPHYS’09), Barcelona, Spain, July 13-July 17 (2009).

  30. Y. Sato and T. Taira, "Thermal conductivity in solid-state laser materials: general model and dependence on rare-earth concentration," CLEO/PR 2009, Shanghai, China, Aug.30-Sep.3, TuD3-1 (2009).

  31. T. Taira, "Ceramic laser materials," Ultrafast Optics / High Field Short Wavelength 2009, Arcachon, France, August 31-September 4, in proceedings of UFO VII, pp. 151-153 (2009). (Keynote talk)

  32. T. Matsushita, A. Sugita and T. Taira, "Design of mode-locked oscillator using edge-pumped all-ceramic Yb:YAG microchip laser," 5th Laser Ceramics Symposium (2009LCS), Bilbao, Spain, December 9-11, I-4 (2009).

  33. T. Taira, "Bulk quasi-phase-matched device: large aperture PPMgLN and PPMgLT," SPIE Photonics West, San Francisco, USA, January 26-28, 7582-37 (2010).

  34. T. Taira, "The promise of giant micro photonics," SOLID STATE LASERS. 50 YEARS AFTER, Tarragona, SPAIN, March 19-20 (2010).

  35. T. Taira, "Next generation of laser ceramics toward giant micro-photonics," The 7th Asia Pacific Laser Symposium (APLS2010), Jeju Island, South Korea, May 11-15, Fr-R2-1(2010).

  36. T. Taira, "Giant micro-photonics: domain controlled optical materials," 4th International Workshop on Photonic and Electronic Materials, San Sebastian, Spain, July 5-7 (2010).

  37. T. Taira, "Advanced laser ceramics toward giant micro photonics," The 16th international conference on crystal growth/14th international conference on vapor growth and epitaxy (ICCG-16/ICVGE-14)), Beijing, China, August 8-13 (2010).

  38. T. Taira, "Micro solid-state photonics – new photonics by micro-domain controlled materials," E-MRS 2010 Fall Meeting, Warsaw University of Technology, Poland, September 14 (2010).

  39. T. Taira, "Laser ignition of combustion engines for cleaner vehicles (Plenary)," ICALEO – International Congress on Applications of Lasers & Electro-Optics, Anaheim, CA, USA, September 27, P2 (2010).

  40. T. Taira, "Anisotropic ceramics as a next generation laser," 6th Laser Ceramics Symposium, Munster, Germany, December 7, P. 21 (2010).

  41. T. Taira, "Anisotropic laser ceramics toward giant micro‐photonics," OSA Topical Meeting on Advanced Solid-State Photonics (ASSP), Istanbul, Turkey, February 13-16, ATuE1 (2011).

  42. T. Taira, "Giant microphotonics: Large aperture PPMgLN," Journées Nationales des Cristaux pour l’Optique (JNCO) 2011, Marseille, France, July 4-7, JNCO_6: Optique non-linéaire 2, pp. 55-58 (2011).

  43. T. Taira, "Large aperture QPM devices for giant micro-photonics," 20th International Laser Physics Workshop (LPHYS’11), Sarajevo, Bosnia and Herzegovina, July 11–15, Physics of Lasers, Seminar 4.3.1 (2011).

  44. T. Taira, "Large aperture QPM devices toward giant micro-photonics," The 22nd General Congress of the International Commission for Optics ICO22, Puebla, Mexico, August 15 -19, 2286226 (2011). (Keynote).

  45. T. Taira, "Ceramic lasers and laser materials toward giant micro-photonics," 2nd EOS Topical Meeting on Lasers (ETML'11), Hotel la Residenza, Capri, Italy, September 26-28, [4644] (2011).

  46. T. Taira, "Promise on microchip lasers for peening - Giant micro-photonics -," The 3rd International Conference on Laser Peening and Related Phenomena, Osaka International Convention Center –Grand Cube Osaka, Osaka, Japan, October 11-14, 11PM2-2 (2011).

  47. Y. Sato, J. Akiyama and T. Taira, "Spin-orbit momentum controlled anisotropic laser ceramics," Pacific-Rim Laser Damage 2011:Optical Materials for High Power Lasers, Shanghai, P.R. China, November 6-9, 8206-62 (2011).

  48. T. Taira, "Domain controlling for anisotropic laser ceramics," 7th Laser Ceramics Symposium, Singapore, November 14-17 (2011).

  49. T. Taira, "Microchip laser, ceramic laser toward giant micro-photonics," The 17th OptoElectronics and Communications Conference (OECC 2012), Busan, Korea, 5F2-3, July 2-6 (2012).

  50. T. Taira, "Giant micro-photonics for laser ignitions," 2012 IEEE Photonics Society Int’l Conference on Optical MEMS & Nanophotonics (OMN 2012), Banff, Alberta, Canada, ThC1, August 6-9 (2012).

  51. T. Taira, "Promise on giant micro-photonics for pulse-gap," Extended Abstracts, 73rd Autumn Meeting for Jpn. Society of Appl. Phys., Ehime Univ./Matsuyama Univ., Matsuyama, 13a-G2-1 (2012.9).

  52. T. Taira, "High brightness microchip lasers for engine ignition," Frontiers in Optics 2012, The OSA’s 96th Annual Meeting, Rochester, New York, USA, October 14-18, FM3G.1 (2012). 

  53. M. Tsunekane and T. Taira, "High peak power micro-laser for ignition of automobile engines," 2nd International Conference on Frontiers of Manufacturing with Photons, Energetic Particles and Power fields in 2012 (MP3 2012), 5th International Photonics and OptoElectronics Meetings (POEM2012), Wuhan, China, November 1-2, MF4A.2 (MP3-1447926) (2012).

  54. Y. Sato and T. Taira, "Fundamental sciences in orientation control process for anisotropic laser ceramics," 8th International Symposium on Transparent Ceramics for Photonic Applications (LCS8), Nizhny Novgorod, Russia, December 4-7 (2012).

  55. R. Bhandari and T. Taira, "High repetition rate MW peak power green microchip laser," The 1st. Laser Ignition Conference ’13 (LIC’13), OPIC ’13, Yokohama, Japan, April 23-26, LDC/LIC1-3 (2013).

  56. M. Hemmer, A. Thai, M. Baudisch, H. Ishhizuki, T. Taira, J. Biegert "3.1μm wavelength, 19μJ energy, 160 kHz repetition rate OPCPA for strong-field physics," The 2nd Advanced Lasers and Photon Sources (ALPS’13), OPIC ’13, Yokohama, Japan, April 23-25, ALPS1-4 (2013).

  57. T. Taira, S. Morishima, K. Kanehara, N. Taguchi, A. Sugiura, and M. Tsunekane, "World first laser ignited gasoline engine vehicle," The 1st. Laser Ignition Conference ’13 (LIC’13), OPIC ’13, Yokohama, Japan, April 23-26, LIC3-1 (2013).

  58. T. Taira, "Impact of giant microphotonics at pulse gap," Pacific-Rim Laser Damage 2013, Shanghai, P.R. China, May 19-22, 8786-18 (2013). (Invited Paper)

  59. M. Hemmer, A. Thai, M. Baudish, F. Silva, D. R. Austin, H. Iskizuki, T. Taira, A. Couairon, D. Faccio, J. Biegert, "High average power few-cycle pulses in the mid-IR, self-compression and continuum generation," CLEO 2013, San Jose, California, USA, June 9-14, CM2L.3 (2013). (Invited)

  60. T. Taira, "Giant micro-photonics for laser ignition," International Workshop on Luminescent Materials 2013 (LumiMat’13), Kyoto, Japan, November 14-15, I-3 (2013).

  61. Y. Sato and T. Taira, "Micro domain control for anisotropic laser ceramics," International Workshop on Luminescent Materials 2013 (LumiMat’13), Kyoto, Japan, November 14-15, I-4 (2013).

  62. T. Taira, "Giant micro-photonics for energy," Optics & Photonics Taiwan, International Conference 2013 (OPTIC 2013), Zhongli, Taiwan, December 5-7, 2013-FRI-S0304-I001 (2013). (Invited paper)

  63. T. Taira, "Giant micro-photonics for laser ignitions," 1st International Symposium on High Power Laser Science and Engineering (HPLSE2014), Suzhou, China, March 16-19, C10 (2014). (Invited)

  64. T. Taira, "Promise Ignition," Session A, Joint Plenary Sessions, OPTICS & PHOTONICS International Congress 2014 (OPIC’14), Yokohama, Japan, April 22-25 (2014). (Plenary Talk)

  65. T. Taira, "Opening Remarks," The 2nd Laser Ignition Conference (LIC’14), OPIC’14, Yokohama, Japan, April 22-25, PLD&LIC1-1 (2014). (Plenary Session)

  66. R. Yasuhara and T. Taira, "The microchip-laser based high energy probe laser for the Thomso scattering plasma diagnostics," Joint Session PLD&LIC, The 2nd Laser Ignition Conference (LIC’14), OPIC’14, Yokohama, Japan, April 22-25, PLD&LIC1-1 (2014). (Invited)

  67. T. Taira and H. Ishizuki, "Promise of large aperture PPMgLN," Proceedings of Advanced Lasers and Their Applications workshop, Seogwipo, Jeju, South Korea, May 7-10, Fri-D2-1, p. 40 (2014). (Invited Paper)

  68. T. Taira, "RE3+ ceramic lasers for energy: from engine to fusion ignitions," 5th International Workshop on Photoluminescence in Rare Earths: Photonic Materials and Devices (PRE’14), San Sebastian, Spain, May 13-16, (2014). (Plenary Talk)

  69. T. Taira, "Giant micro-photonics for future energy," 14th International Balkan Workshop on Applied Physics (IBWAP-2014), Constanta, Romania, July 2-4, S0 03 (2014). (Plenary Talk)

  70. T. Taira, "Micro domain-controlled laser materials toward giant micro-photonics," 6th EPS-QEOD Europhoton Conference, Neuchatel, Switzerland, August 24-29, ThD-T1-I-01 (2014).

  71. T. Taira, "VCSEL-pumped giant-pulse microchip lasers," International Symposium on Physics and Applications of Laser Dynamics 2014 (IS-PALD 2014), Hsinchu, Taiwan, September 2-5, ??? (2014).

  72. T. Taira, "Giant Micro-photonics for Laser Ignition," OSA Topical Meeting on Latin America Optics & Photonics Conference (LAOP),?Cancun, Mexico November 16-21, LF2D.2 (2014).

  73. T. Taira, "Micro‐domain control toward giant micro-photonics," 10th Laser Ceramics Symposium (LCS2014), Wroclaw, Poland, December 1 - 5, KIT-5 (2014). (Keynote invited talk)

  74. T. Taira, "Overview of optical/laser technological advances leading to practical laser ignition systems," The 3rd Laser Ignition Conference (LIC’15), Argonne, IL, USA, April 27-30, T3A.2 (2015).

  75. T. Taira, "Giant micro-photonics for high-power mid-IR generation," SPIE/SIOM Pacific-Rim Laser Damage 2015, Shanghai, P.R. China, May 17-20, 9532-115 (2015).

  76. T. Taira, "Giant micro-photonics for laser ignition," 9th International Physics Conference of Physical Union (BPU9), Istanbul, Turkey, August 24?27, IS_28 (2015).

  77. T. Taira, "Giant micro-photonics for high-brightness lasers," The 11th Pacific Rim Conference of Ceramics Societies (PACRIM 11), Jeju, Korea, August 30-September 4, WeF3-1 (2015).

  78. A. Kausas and T. Taira, "> MW, mJ-high-brightness giant-pulse Nd:YVO4 microchip laser by cross-section control," OSA Topical Meeting on Advanced Solid-State Lasers (ASSL), Berlin, Germany, October 4-9, ATh3A6 (2015). (Post-deadline Paper)

  79. T. Taira, "Domain controlled devices for giant micro-photonics," 11th Laser Ceramics Symposium (LCS2015), Xuzhou, China, November 30 ? December 4, Tu-I-10 (2015).

  80. T. Taira, "Laser ignitions for energy solution,"7th International Symposium on Optical Materials (IS-OM7), Lyon, France, February 29 ? March 4, I‐12 (2016).

  81. T. Taira, "Opening remarks for LIC, " LIC plenary session, The 4th Laser Ignition Conference (LIC’16), OPIC’16, Yokohama, Japan, May 18-20, LIC1-1 (2016). (Plenary Talk)

  82. T. Suzudo, K. Hagita, T. Ikeo, K. Izumiya, N. Jikutani, Y. Higash, and T. Taira,  "Total design of high power VCSEL pumped passively Q-switched micro-lasers for laser ignition, " The 4th Laser Ignition Conference (LIC’16), OPIC’16, Yokohama, Japan, May 18-20, LIC3-1 (2016).

  83. R. Bhandari, K. Tojo, and T. Taira, " Development of UV Microchip Lasers for Compact MALDI Spectroscopy Systems, " The 4th Laser Ignition Conference (LIC’16), OPIC’16, Yokohama, Japan, May 18-20, LIC4-2 (2016).

  84. T. Sakamoto, K. Ohishi, Y. Furukawa, L.Zheng and T. Taira, "A flange-mounted UV microchip laser for imaging mass spectrometry, " The 4th Laser Ignition Conference (LIC’16), OPIC’16, Yokohama, Japan, May 18-20, LIC4-3 (2016).

  85. T. Goto, R. Morimoto, J. W. Pritchard, T.Yoshimoto, H. Takagi, Y. Nakamura, P. B.Lim, M. Mina, T. Taira, and M. Inoue, "Magneto-optical Q-switching with magnetic garnet film, " The 4th Laser Ignition Conference (LIC’16), OPIC’16, Yokohama, Japan, May 18-20, LIC9-1 (2016).

  86. T. Taira, "Micro-domain control toward new lasers," The 40th Annual Conference on MAGNETICS in Japan, Kanazawa, Japan, September 5-8, 7aD-4?(2016).

  87. T. Taira, "Giant micro-photonics for engine ignition and sensing," International Conference “Global/Local Innovations for Next Generation Automobiles,” Sendai, Japan, October 11-12 (2016).

  88. T. Taira, "GW-class giant-pulse micro-lasers by using domain control," CerSJ-GOMD Joint Symposium on Glass Science and Technologies, Kyoto, Japan, November 13-15 (2016).

  89. T. Taira, "Domain control toward MW to sub-GW giant-pulse micro-lasers," 12th Laser Ceramics Symposium (LCS2016), Saint-Louis, France, November 28- December 2, Fr-10-I-01 (2016).

  90. T. Taira and H. Ishizuki, "Large aperture quasi-phase matched nonlinear material for functional power lasers," CLEO 2017, San Jose, California, USA, May 14-19, SW4M.7 (2017).

  91. T. Taira, "Giant micro-photonics for ubiquitous power lasers," The 18th International Symposium on Laser Precision Microfabrication (LPM), Toyama, Japan, June 5-8, MoM-PL-2 (2017). (Plenary Talk)

  92. T. Taira, "Giant Micro-Photonics toward Innovative Ignition," The 5th Laser Ignition?Conference (LIC’17), Bucharest, Romania, June 20-23, LWA2.1 (2017).


Workshops and talks in domestic conferences

  1. T. Taira, "Laser diode pumped Yb:YAG lasers," Extended Abstracts, 56th Autumn Meeting for Jpn. Society of Appl. Phys., 28p-K-6, p.1189 (1995.8).

  2. 平等拓範, "Advanced Solid-State Laser Conference 会議報告," レーザー学会研究会, 大阪, 1998年3月.

  3. 平等拓範, "環境計測ライダーのための固体レーザー," 微小光学研究会, 東京, 1998年7月.

  4. 平等拓範, "小型高輝度固体レーザー," 理研フォトダイナミクス公開フォーラム, 仙台, 1998年8月.

  5. 平等拓範, "Advanced Solid-State Laser Conference 会議報告," 学術振興会第130委員会, 東京, 1999年3月.

  6. 平等拓範, "マイクロチップ固体レーザー," レーザー学会第264回研究会, 福岡, 2000年1月.

  7. 平等拓範, "CLEO2000国際会議報告," レーザー学会専門委員会, 岡崎, 2000年7月.

  8. 平等拓範, "Conference Reports CLEO2000," 電気学会専門委員会, 東京, 2000年7月.

  9. 平等拓範,"広帯域波長可変クロマチップレーザー," レーザー学会第282回研究会, 広島, 12月 (2000).

  10. 平等拓範, "LD励起Yb:YAGレーザの開発研究," 電気学会, パワー半導体レーザ技術調査専門委員会, 東京, 3月22日 (2001).

  11. 平等拓範, "波長可変マイクロチップ固体レーザーの最前線, " 基礎生物学研究所研究会, 岡崎, 11月25日(2004).

  12. 平等拓範, "高輝度マイクロチップレーザーの現状と展望, " 第62回レーザ加工学会大会, 大阪, 12月8日, pp. 78-82 (2004).

  13. H. Ishizuki and T. Taira, "High energy Mid-IR pulse generation by using a periodically domain-inverted optical device," Extended Abstracts, 53rd Spring Meeting for Jpn. Society of Appl. Phys., 24 March, 24p-ZK-3, p. 73 (2006).

  14. T. Suzudo, Y. Satoh, M. Hiroi, H. Mifune, Y. Sato, H. Ishizuki, T. Taira O. Nakamura, S. Watanabe, and Y. Furukawa, "High power green laser development for new type of printing system using full-color rewritable paper," Technical Report of IEICE, EID2006-22, pp. 35-38 (2006).

  15. 平等拓範, "マイクロチップレーザー技術の進展," 日本光学会名古屋講演会「最近のレーザー応用技術」, 名古屋大学, 名古屋, 平成19年3月13日 (2007).

  16. T. Taira, "Ceramic lasers," The 110th Microoptics Meeting, Microoptics News vol. 26, no. 4, Tokyo, December 5, p. 25-31 (2008).

  17. T. Taira, "Micro solid-state photonics –New application by giant micro-photonics-," 29th Annual Meeting of Laser Society of Japan, Tokushima University, Japan, January 10-12, 12aS6 (2009.1)

  18. T. Taira and H. Ishizuki, "Field poled optical devices for giant micro photonics," Extended Abstracts, 56th Spring Meeting for Jpn. Society of Appl. Phys., 30p-B-2, p. 5 (2009.3).

  19. K. Tojo, K. Watanabe, N. Ishigaki, A. Kadoya, K. Tokuda, Y. Ido, and T. Taira, "Microchip ceramic UV laser for the high performance MALDI," 30th Annual Meeting of The Laser Society of Japan, Osaka, February 2-4, B94p I 005, pp. 54-55 (2010).

  20. T. Taira, "Automobile engine ignition by high brightness micro-laser," First Workshop on Plasma-Assisted Combustion, Osaka University, Osaka, March 15, p. 9 (2010).

  21. M. Tsunekane, N. Kido, K. Kanehara and T. Taira, "Microlaser for ignition of automobile engines," 31st Annual Meeting of The Laser Society of Japan, The University of Electro-Communications, Tokyo, Japan, January 9, pp. 35-38, B109aIV01 (2011).

  22. 平等拓範, 「マイクロチップレーザー技術の進展と応用 - ジャイアントマイクロフォトニクスを目指して - 」, 『光の日』公開シンポジウム2011, 学術振興会第130委員会, 東京理科大学 森戸記念館, 3月8日(2011): T. Taira, "The art of age microchip lasers – toward giant micro-photonics -," JSPS 130th Working Group, Tokyo, March 3 (2011).

  23. M. Tsunekane and T. Taira, "Next generation of ignition by micro solid-state laser," Extended Abstracts, 58th Spring Meeting for Jpn. Society of Appl. Phys., 24p-BR-7 (2011.3).

  24. J. Akiyama and T. Taira, "Laser oscillation with anisotropic ceramics," Extended Abstracts, 58th Spring Meeting for Jpn. Society of Appl. Phys., 26p-KG-10 (2011.3).

  25. J. Akiyama, Y. Sato and T. Taira, "Fabrication and optical characterization of anisotropic laser ceramics," 32nd Annual Meeting of The Laser Society of Japan, TKP SENDAI Conference Center, Sendai, Japan, January 30-February 1, pp. 49-50, B801a I 06 (2012). (Invited)

  26. 平等拓範, "パルスギャップ領域ジャイアントパルスレーザーによる革新, " 第77回レーザ加工学会講演会, 大阪, 5月25日, pp. 111-115 (2012.5).

  27. 平等拓範,K. Weipeng,石月秀貴, 「マイクロ固体フォトニクスによるパルスギャップサイエンス」, 第4回超高速光エレクトロニクス研究会, 慶應義塾大学,6月8日(2012).

  28. 平等拓範, "ジャイアント パルスマイクロチップセラミックレーザーの進展 - ジャイアント マイクロフォトニクス - ," 電子情報通信学会技術研究報告, OCS2012-55, pp. 71-76 (2012): T. Taira, "New development of giant pulse microchip ceramic laser ‐Giant micro-photonics‐," IEICE Technical Committee on Lasers and Quantum Electronics (LQE), Hotel Merieges, Miyazaki, October 25-26, OCS2012-55, pp. 71-76 (2012).

  29. 平等拓範, 燃焼学会ワークショップ (2012.12.2)

  30. 平等拓範, 「透明セラミックスによるジャイアントパルスレーザー ? ジャイアントマイクロフォトニクスを目指して -」, 放射線科学とその応用第186委員会 第4回委員会, 第4回研究会, 名古屋, 12月20日, pp. 1-7 (2012).

  31. T. Taira, "Solid-state photonics toward giant micro-photonics," Sokendai Asian Winter School "Frontiers in Photo-Molecular Science," Okazaki, Japan, January 14-17 (2013).

  32. 平等拓範, "レーザー点火プラグ- ジャイアントマイクロフォトニクスへの誘い," 光産業技術振興協会 第4回光材料・応用技術研究会/日本フォトニクス協議会 2013年3月定例会, 東京, 3月1日(2013).

  33. 平等拓範, 他, マイクロチップレーザー光源の研究開発とその実用への展開, 第13回レーザー学会東京支部研究会, 東海大学, 東京, 2013年3月13日(2013).

    1. 平等拓範,「第1講 イントロダクション」
    2. 常包正樹(平等研究室),「第2講 エンジン点火用マイクロチップレーザーの研究開発」
    3. 金原賢治(平等研との共同研究),「第3講 内燃機関用レーザー点火装置」
    4. 佐藤庸一(平等研究室),「第4講 異方性レーザーセラミックス 磁場配向プロセスの理論」
    5. ラケシバンダリ(平等研究室),「第5 講 マイクロチップレーザによるメガワトUV発生」
    6. 石月秀貴(平等研究室),「第6 講 10mm厚の PPMgLNからの 0.5J級出力OPO」
  34. 平等拓範, "ジャイアントマイクロフォトニクスによるエネルギー変換," 電子情報通信学会 2013年総合大会, 岐阜大学, 3月19日-22日, CI-1-7, (16) (2013).

  35. 平等拓範, "ジャイアントマイクロフォトニクスにより拓かれる先端計測," 日本学術振興会 結晶成長の科学と技術 第161委員会 第82回研究会プログラム「先端計測を拓く結晶材料」, 東京, 7月19日 (2013).

  36. 佐 藤庸一, 平等拓範, "異方性レーザーセラミックスのマイクロドメイン制御", 静岡大学電子工学研究所共同研究プロジェクト研究会, 静岡, 2月28日 (2014).

  37. Y. Sato and T. Taira, "Thermodynamics for the orientation control of micro-domains," Extended Abstracts, 61st Spring Meeting for Jpn. Society of Appl. Phys., Sagamihara Campus, Aoyama Gakuin Uinversity, Sagamihara, March 17-20, 18p-F8-2 (2014). (Invited)

  38. 平 等拓範, 「UVジャイアントパルスマイクロチップレーザー」, 第81回レーザ加工学会講演会, 大阪大学, 大阪, 5月27日, pp. 37-42 (2014).

  39. 平 等拓範, 「量子制御による高性能レーザーをめざして:エネルギー問題への提案」, 日本学術振興会, 結晶成長の科学と技術 第161委員会 第88回研究会, 主婦会館, 東京, 9月26日 (2014).

  40. 平 等拓範, 「ジャイアントパルスマイクロチップレーザー」, 第2回先端計測技術の応用展開に関するシンポジウム, 日本鉄鋼協会 評価・分析・解析部会 先端レーザ応用技術を適用した鉄鋼材料・プロセスのモニタリング・解析技術フォーラム, 仙台,12月11日,基調講演8 (Keynote8), p.14 (2014): T. Taira, "Giant pulse microchip laser," Second Symposium on Applications of Advanced Measurement Technologies (SAAMT2014), Sendai, Japan, December 11, Keynote8, p. 14 (2014).

  41. 平 等拓範, 「マイクロチップレーザーの開発」, ImPACTプログラム「ユビキタス・パワーレーザーによる安全・安心・長寿社会の実現」キックオフシンポジウム, 大阪大学, 大阪, 6月1日 (2015).

  42. 平 等拓範, 「レーザーイグニッション」, 日本学術振興会,  第298回 光エレクトロニクス第130委員会, 東京理科大学 森戸記念館, 7月14日(2015): T. Taira, "Laser Ignition," JSPS 130th Working Group, Tokyo, July 14 (2015).

  43. 平 等拓範, 「マイクロチップレーザーの開発」, ImPACTプログラム「ユビキタス・パワーレーザーによる安全・安心・長寿社会の実現」超小型パワーレーザーの開発研究会, TKP東京駅前カンファレンスセンター, 東京, 11月6日 (2015).

  44. 平 等拓範, 「ドイツにおける光産業動向 ASSL国際会議から」,光産業技術振興協会 第3回光材料・応用技術研究会, 神奈川, 11月13日(2015).

  45. 平 等拓範, 「マイクロチップレーザーによるエンジン点火からアブレーションまで」, レーザー協会および中部レーザ応用技術研究会, 名古屋レーザフォーラム2015, 吹上ホール(名古屋), 11月18日(2015).

  46. 平 等拓範, 川瀬晃道, 南出泰亜, 「マイクロ固体フォトニクスによる高輝度テラヘルツ波生成」, 日本学術振興会, 光エレクトロニクス第130委員会 第303回研究会, 静岡大学工学部S-Port, 7月8日(2016).

  47. 平 等拓範, 「マイクロレーザーの新展開と生体光イメージングへの可能性」, 日本学術振興会, 2016年度 第1回 光エレクトロニクス第185委員会, アクトシティ浜松, 浜松, 7月27日(2016).

  48. 平 等拓範, 「ドメイン制御による小型高輝度レーザー」, 第13回エクストリーム・フォトニクス研究会, ホテル竹島, 愛知県蒲郡市, 11月14日-15日, S12 (2016).

  49. 平 等拓範, 「接合・界面制御と固体レーザーの高性能化」, 日本学術振興会, 第7回 接合界面創成技術第191委員会, 東京大学工学部, 東京, 12月16日(2016).

  50. 平 等拓範, "ジャイアント・マイクロフォトニクスによる超小型パルスレーザーの開発," レーザー学会学術講演会第37回年次大会, 徳島大学常三島キャンパス, 徳島, 1月7日?9日, 07pVI_3 (2017).

  51. 平 等拓範, 「国際会議報告 Photonics West 報告」, 光産業技術振興協会, 第4回光材料・応用技術研究会, 中央大学後楽園キャンパス, 東京, 3月3日 (2017).

  52. T. Goto, R. Morimoto, J. Pritchard, H. Takagi, Y. Nakamura, P. B. Lim, H. Uchida, M. Mina, T. Taira, and M. Inoue, "Development of thin Q-switched laser driven by magnetic domains," Extended Abstracts, The 64th Spring Meeting for Jpn. Society of Appl. Phys., PACIFICO YOKOHAMA, Yokohama, March 14-17, 15p-213-1 [JSAP Young Scientist Award Speech] (2017).

  53. T. Taira, "Promise of giant micro-photonics for ubiquitous power-lasers," Extended Abstracts, The 64th Spring Meeting for Jpn. Society of Appl. Phys., PACIFICO YOKOHAMA, Yokohama, March 14-17, 15p-418-6 (2017).

  54. 平 等拓範, 「ジャイアントパルスレーザの可能性」, 科学技術交流財団, 第8回「レーザ利用革新的材料開発研究会」, 科学技術交流財団研究交流センター, 名古屋市, 2017年3月16日(2017).


International seminars

  1. T. Taira, "Advanced UV and Tunable Lasers in IMS," Dijon University, FRANCE, February (2000).

  2. T. Taira, "Direct-pumped highly Nd-ion doped microchip lasers," Medical Laser Research Center in Dankook University, Korea, Nov.1 (2001).

  3. T. Taira, "Microchip lasers," Stanford University, Ginzton lab., USA, Dec.10 (2001).

  4. T. Taira, "Nd-ceramic laser material, " Boeing Co., CA, USA, May 23 (2002).

  5. T. Taira, "Microchip ceramic lasers, " HRL Lab., CA, USA, May 23 (2002).

  6. T. Taira, "Nd-Ceramic laser material, " US Army Workshop on Solid-State Lasers, Long Beach, CA, USA, May 22 (2002).

  7. T. Taira, "Ceramic laser material, " Stanford Univ., CA, USA, May 25 (2002).

  8. T. Taira, "Laser performance of transparent ceramics," Stanford University, Ginzton lab., USA, Dec.16 (2002).

  9. T. Taira, "New generation of the ceramic lasers," Stanford Univ., CA, USA, June 11 (2003).

  10. T. Taira, "Diode pumped microchip laser for chromatic light source," Joseph Fourier Univ., France, June 30 (2003).

  11. T. Taira, "Diode pumped microchip solid-state lasers," National Institute for Laser, Plasma and Radiation Physics,, Bucharest, Romania, July 2 (2003).

  12. T. Taira, "Mixed garnet Yb:Y3ScAl4O12 ceramic lasers," Stanford Univ., CA, USA, December 20 (2004).

  13. T. Taira, "Next generation of laser ceramics," University of California, Los Angeles, CA, USA, December 22 (2004).

  14. T. Taira, "Thick PPMgLN based nonlinear wavelength conversion," Pusan National University, Busan, South Korea, May 11 (2005).

  15. T. Taira, "New advanced lasers -ceramic and microchip laser-," Yeungnam University, Kyongsan, South Korea, May 12 (2005).

  16. T. Taira, "High power microchip laser," Stanford University, CA, USA, May 20 (2005).

  17. T. Taira, "Chromatic micro-lasers," Joseph Fourier University, Saint Martin, France, June 20 (2005).

  18. T. Taira, "Micro-photonics toward chromatic laser," Ecole Nationale Superieure de Chimie de Paris, France, June 21 (2005).

  19. T. Taira, "Chromatic micro solid-state lasers," Institute of Atomic Physics, Bucharest, August 1 (2005).

  20. T. Taira, "Advanced solid-state microchip lasers," Hamburg University, Germany, August 11 (2005).

  21. T. Taira, "Promise of periodically poled MgO-doped LiNbO3 devices," Macquarie University, Sydney, Australia, 28 October (2005).

  22. T. Taira, "Micro solid-state photonics for chromatic lasers," Photon science and applications program science and technology seminar, Lawrence Livermore National Laboratory, USA, February 2, B482 (2006).

  23. T. Taira, "High brightness-temperature Nd:YAG micro-lasers," Ecole Nationale Superieure de Chimie de Paris (ENSCP), Pierre & Marie Curie University (Paris VI University), Paris, France, 21 June (2006).

  24. T. Taira, " Widely tunable compact lasers by micro solid-state photonics," Cristal Laser S.A., Messein, France, 22 June (2006).

  25. T. Taira, "Chromatic micro solid-state phtonics: Approach with the thick periodically poled MgO:LiNbO3," Laboratoire Charles Fabry de l’Institut d’Optique, Paris-Sud University (Paris XI University), Orsay, France, 30 June (2006).

  26. T. Taira, "The state of the art of ceramics micro-lasers," Centre Interdisciplinaire de Recherche Ions Laser, L’Ecole Nationale Superieure d’Ingenieurs de Caen, University of Caen, Caen, France, 12 July (2006).

  27. T. Taira, "Micro solid-state photonics for brightness and wavelength converters," Max-Planck-Institut fuer Quanttenoptik, Munich, Germany, October 5 (2007).

  28. T. Taira, "Ceramic microchip lasers," University of Applied Science, Munster, Germany, February 13 (2008).

  29. T. Taira, "The promise of giant micro-photonics," NIPS-JST International Workshop, Okazaki Conference Center, Aichi, April 18-19, p. 13 (2008).

  30. T. Taira, "The promise of giant micro-photonics," STFC Rutherford Appleton Laboratory, Didcot, UK, June 22 (2009).

  31. T. Taira, "The promise of next generation of laser ceramics: giant micro-photonics," University of Southampton, UK, June 23 (2009).

  32. T. Taira, "Laser Ceramics toward Giant Micro-photonics," ENSCP, Paris, France, September (2009).

  33. T. Taira, "Giant micro-photonics by new domain controlling," ETH – OPTeth - Laser Seminar, Zurich, SWITZERLAND, March 22 (2010).

  34. T. Taira, "State-of-the art micro solid-state photonics," University of Twente, Germany, September 6 (2010).

  35. T. Taira, "Giant micro-photonics," The 1st Japan-Grenoble/Lyon Workshop in Nanophotonics, Institut Néel, Grenoble, France, June 10 (2011).

  36. T. Taira, " Anisotropic ceramic lasers toward giant micro-photonics," Ecole Nationale Superieure de Chimie de Paris (ENSCP), Pierre & Marie Curie University (Paris VI University), Paris, France, June 24 (2011).

  37. T. Taira, "Ceramic lasers toward giant micro-photonics," Institut Néel, Grenoble, France, June 28 (2011).

  38. T. Taira, "Laser ignition for engine," Workshop on Transparent Ceramics for Photonic Applications, Singapore, November 18 (2011).

  39. T. Taira, "Micro solid-state photonics toward giant photonics," Shanghai Institute of Optics and Fine Mechanics (SIOM), Chinese Academy of Sciences, Shanghai, China, June 1 (2012).

  40. T. Taira, "High-brightness microchip lasers toward giant micro-photonics," Ajou University, Suwon, Korea, July 9 (2012).

  41. T. Taira, "Laser ignitions toward giant micro-photonics," ENSCP, Paris, France, November 25 (2013).

  42. T. Taira, " High Energy Mid-IR Generation by using Large-Aperture PPMgLN," National Chiao Tung University, Hsinchu, Taiwan, December 9 (2013).

  43. T. Taira, "Giant microphotonics: challenges, achievements, future," National Institute for Laser, Plasma and Radiation Physics, Bucharest, Romania, July 1 (2014).

  44. T. Taira, "Anisotropic RE:FAP laser ceramics by micro-domain control," Laboratoire Pour l'Utilisation des Lasers Intenses, Ecole Polytechnique, Palaiseau, France, April 3 (2015).

  45. T. Taira, " Promise of Giant Micro-photonics for Enegy-Ubiquitos High Power Lasers-," JSPS Science Caf?, JSPS Washington Office, Washington DC, USA, February 11 (2016).

  46. T. Taira, "Giant micro-photonics for energy," Laboratory for Nanoscale Optics, John A. Paulson School of Engineering and Applied Sciences, Harvard University, Cambridge, MA, USA, November 4 (2016).

  47. T. Taira, "Giant micro-photonics for engine ignition," The Third Symposium on Combustion Diagnostics 2016, Xi‘an, China, November 16-18 (2016).

  48. T. Taira, "Giant Micro-photonics for ubiquitous power laser," Xi'an Institute of Optics and Precision Mechanics (XIOPM), Xi’an (China), November 18 (2016).

  49. T. Taira, "Giant micro-photonics for ubiquitous power laser," University of Beijing, Beijing, China, November 19 (2016).


Domestic seminars

  1. 平等拓範, "マイクロチップ固体レーザ," 第3回光学材料・デバイス研究会, 東京, 1996年1月.

  2. 平等拓範, "高出力マイクロチップ固体レーザ," 三井石油化学工業(株)機能材研究所, 千葉, 1997年6月..

  3. 平等拓範, "小型固体レーザーとその応用," 日本ガイシ特別講演, 名古屋, 1998年8月.

  4. 平等拓範, "セラミックNd:YAGレーザー," テラフォトニクス研究会, 仙台, 1998年10月.

  5. 平等拓範, "最近の固体レーザー研究動向," レーザー学会研究会, 大阪, 1999年3月.

  6. 平等拓範, "マイクロチップ固体レーザーとその応用," 無機材質研究所, 東京, 1999年4月.

  7. 平等拓範, "多機能計測応用を目指した小型固体レーザーの開発," 宮崎大学, 宮崎, 1999年7月.

  8. 平等拓範, "マイクロチップレーザー," 理化学研究所, 仙台, 1999年9月.

  9. 平等拓範, "広帯域波長可変クロマチップレーザーの展望," 福井大学, 福井, 1999年11月.

  10. 平等拓範, "マイクロチップレーザーの新展開," LaserExpo2000(レーザー学会主催), A, pp. 6-9, 横浜, 2000年4月.

  11. 平等拓範, "セラミックス固体レーザ," 慶応大学, 東京, 2000年6月9日.

  12. 平等拓範, "誘電体材料を用いた光源の多様化," 無機材質研究所, つくば, 2000年7月18日.

  13. 平等拓範, "高性能マイクロチップレーザーの展望," 分子研一般公開, 岡崎, 2000年10月.

  14. I. Shoji, T. Taira, and A. Ikesue, "The ceramic Nd:YAG lasers - their optical properties and future prospects-," 22nd Annual meeting of The Laser Society of Japan, Osaka, Jan. 24-25, B3-24p I1, pp. 38-39 (2002).

  15. 平等拓範, "マイクロチップレーザー," 第4回光材料・応用技術研究会, 東京, 2002年3月1日.

  16. T. Taira, I. Shoji, and A. Ikesue, "Microchip ceramic lasers," National Convention of The Institute of Electrical Engineers of Japan, Tokyo, March 27, 3-S16-3, pp. 265-268 (2002).

  17. 平等拓範, "国際会議 ASSP報告," 第4回光材料・応用技術研究会, 東京, 2月28日 (2003).

  18. 平等拓範, "CLEO2003報告," 第1回光材料・応用技術研究会, 東京, 6月20日 (2003).

  19. 平等拓範, "レーザー入門~光の基礎からレーザー研究の最前線まで~," 安城市市民文化センター, 7月19日 (2003).

  20. 平等拓範, "Advanced Solid-State Photonics 2004 (1-4 Feb.)報告," 第4回光材料・応用技術研究会, 東京, 3月5日 (2004).

  21. 平等拓範, "擬似位相整合(QPM)MgO:LiNbO3 素子の可能性:作製プロセスと高効率 波長変換特性," 東京工業大学, 東京, 4月28日 (2004).

  22. 平等拓範, "最先端技術 高出力固体レーザとその応用," 日本自動車部品総合研究所, 西尾, 6月1日 (2004).

  23. 平等拓範, "小型マイクロチップレーザーの動向," 第1回小型高効率固体レーザー光源実用化に関する研究会, 名古屋, 6月10日 (2004).

  24. 平等拓範, "Advanced Solid-State Photonics 2005 (6-9 Feb.) 国際会議報告," 第5回光材料・応用技術研究会, 自然科学研究機構, 岡崎, 3月24日 (2005).

  25. 平等拓範, "Ndバナデートレーザーの基本特性と展望, " 理研シンポジウム~バナデイトレーザーの新展開~, 埼玉, 4月1日 (2005).

  26. 平等拓範, "高輝度マイクロチップレーザーの新展開," 豊田中央研究所, 愛知郡長久手, 4月12日 (2005).

  27. 平等拓範, "半導体レーザー励起固体レーザー材料," Laser Expo 2005, レーザー学会主催特別セミナー講演予稿集, パシフィコ横浜, 4月20日~22日, B-2, pp. 1-6 (2005).

  28. 平等拓範, "広帯域波長可変マイクロチップレーザー," 理研・分子研合同シンポジウム「エクストリームフォトニクス研究」, 理化学研究所, 埼玉, 4月28日, pp. 17-18 (2005).

  29. 平等拓範, "光制御マイクロレーザーの可能性 ~手のひらサイズ高輝度レーザーとクルマの接点~," (社)自動車技術会, 自然科学研究機構, 岡崎, 9月13日 (2005).

  30. T. Taira, Y. Matsuoka, H. Sakai and H. Kan, "Promise of micro solid-state lasers for micro-machine," Proceedings of the 65th Laser Materials Processing Conference, Sophia University(上智大学), Tokyo, 6 December, 6B1, pp. 183-188 (2005).

  31. M. Tsunekane and T. Taira, "High-power, diode edge-pumped microchip lasers," 26th Annual meeting of The Laser Society of Japan, Omiya Sonic City, Saitama, February 9-10, 10pI2, pp. S19-20 (2006).

  32. J. Saikawa, Y. Sato, T. Taira, and A. Ikesue, "Short pulse generation in Yb:Y3ScAl4O12 disordered ceramic laser," 26th Annual meeting of The Laser Society of Japan, Omiya Sonic City, Saitama, February 9-10, 09pV1, pp. 36-40 (2006).

  33. M. Tsunekane and T. Taira, "マイクロ固体フォトニクス," Laser Expo 2006, 4月19日 (2006).

  34. 平等拓範, "光シンセサイザーを手のひらに -マイクロ固体フォトニクスの新展開-," 自然科学研究機構シンポジウム, 東京, 平成18年9月24日 pp. 4-5 (2006).

  35. 平等拓範, "マイクロ固体フォトニクスの新展開," 大型スペクトログラフ研究会「大型スペクトログラフ高度化装置を利用した研究成果に関わる討論会」, 自然科学研究機構, 岡崎, 平成19年3月7日-8日 p. 25 (2007).B. Boulanger, P. Brand, Y. Petit, P.

  36. 平 等拓範, "固体レーザーとマイクロ固体フォトニクスの展望," 第317回光産業技術マンスリーセミナー, 光産業技術振興協会, 東京, 平成21年10月20日 (2009): T. Taira, "Review of solid-state lasers and micro solid-state photonics," 317th OITDA Monthly Seminar, Tokyo, Japan, Oct. 20 (2009).

  37. 平 等拓範, "ジャイアントマイクロフォトニクスの最前線 – セラミックマイクロチップレーザーの高輝度化・高出力化と環境・エネルギー問題への応用 -," 第21回ナノフォトニクスオープンセミ ナー, 東京大学, 東京, 平成21年10月22日 (2009): T. Taira, "The art of giant micro-photonics," 21st Nanophotonics open seminar, University of Tokyo, Tokyo, Japan, Oct. 22 (2009).

  38. 平等拓範, "先端計測分析技術・機器開発事業の平成22年度重点開発領域について," 科学技術・学術審議会技術・研究基盤部会知的基盤整備委員会先端計測分析技術・機器開発小委員会(第5期第3回), 文部科学省, 東京, 平成21年11月27日 (2009): T. Taira, "Feasibility study of sentankeisoku in 2009," Sentankeisoku working group in JST, Tokyo, Japan, Nov. 27 (2009).

  39. 平等拓範, 「固体レーザーの新展開:ジャイアントマイクロフォトニクス」, 第4回光材料・応用技術研究会, 早稲田大学, 東京, 3月5日 (2010): T. Taira, "New frontier of solid-state lasers: giant micro-photonics," Workshop of Optical Material Research Working Group of OITDA, Waseda University, Tokyo, Japan, March 5 (2010).

  40. 平等拓範, "高輝度マイクロチップレーザー", 光電相互変換第125委員会「本委員会第208回研究会」研究会資料, 日本学術振興会, 東京理科大学, pp. 12-16, 平成22年5月12日 (2010): T. Taira, "High brightness microchip lasers," 208th Workshop of JSPS 125th Working Group, Tokyo, May 12 (2010).

  41. 平等拓範, 「自動車産業における光省エネ」, 第2回光材料・応用技術研究会, パシフィコ横浜, 神奈川, 10月1日 (2010): T. Taira, "Green photonics for automobile fields," Workshop of Optical Material Research Working Group of OITDA, Pacifico Yokohama, Kanagawa, Japan, October 1 (2010).

  42. 平 等拓範, 「ジャイアントマイクロフォトニクスの拓く世界」, レーザー衝撃と応用技術専門委員会, レーザー学会, 浜松ホトニクス東京支店, 東京, 10月4日 (2010) : T. Taira, "New frontier by giant micro-photonics," Laser Peening Workshop of Laser Society of Japan, Tokyo, Japan, October 4 (2010).

  43. 宮 崎充彦, 斎川次郎, 石月 秀貴, 平等 拓範, 藤井 正明, 「ZGP/PPLN/色素レーザーによる中赤外波長可変レーザーを用 いた超音速分子線レーザー分光」, 日本光学会年次学術講演会, 中央大学, 東京, 11月9日 (2010).

  44. 平 等拓範, "マイクロ固体フォトニクスの展開-高輝度マイクロチップレーザーとエンジン点火などの応用-", 第78回研究会(第50回 レーザ技術セミナー), 中部レーザ応用技術研究会, 名古屋, 平成22年11月17日 (2010).

  45. 平 等拓範, "受動Qスイッチ型μチップレーザの高輝度化とエンジン点火", 第34回レーザ協会セミナー, レーザ協会, 東京, 平成22年11月18日 (2010).

  46. 平 等拓範, 「ジャイアントマイクロフォトニクス」, 株式会社リコー, 宮城, 12月20日 (2010).

  47. 平等拓範, 「マイクロ固体フォトニクス研究の現状」, 理研セミナー, 理化学研究所仙台支所, 宮城, 12月21日 (2010).

  48. 平等拓範, "マイクロチップレーザーが拓く次世代応用-分子を加工して省エネからモノづくりまで?," 名古屋国際見本市委員会 TECH Biz EXPO 2013, 名古屋, 10月11日 (2013).

  49. 平等拓範, "ジャイアントマイクロフォトニクス ~テラヘルツ波発生の観点から~," 名古屋市、公益財団法人 名古屋産業振興公社(テラヘルツ波産業応用研究会)テラヘルツ応用技術講演会~最新の研究成果と産業・医工応用への可能性~, 名古屋, 1月29日 (2014).

  50. 平等拓範, 「植物工場を睨んだピコ秒ジャイアントパルスマイクロチップレーザー」, レーザー学会第2回「第一次産業へのレーザー応用」専門委員会, 大阪大学(大阪), 2014年11月7日.

  51. 平等拓範, 「赤外マイクロチップ固体レーザーとその応用」, 第6回光科学フォーラムサミット, 科学技術館(東京), 2014年11月19日.

  52. 平等拓範, 「極限的レーザーを目指して:光と物質の相互作用に関するある考察からのアプローチ」, 第3回NINS Colloquium, 箱根, 神奈川, 12月1日?3日 (2014).

  53. 平等拓範, "「光を作る」:ジャイアントマイクロフォトニクス ‐極限的レーザーを目指して‐," 第6回自然科学研究機構佐藤勝彦機構長プレス懇談会, 自然科学研究機構, 東京, 1月30日 (2015).

  54. 平等拓範,「ジャイアントマイクロフォトニクスのエネルギー展開 - ユビキタス・ハイパワーレーザー -」, 日本学術振興会 Science Caf?, 日本学術振興会ワシントン研究連携センター, 米国ワシントンDC, 2月11日(2016): T. Taira, " Promise of Giant Micro-photonics for Enegy-Ubiquitos High Power Lasers-," JSPS Science Caf?, JSPS Washington Office, Washington DC, USA, February 11 (2016).

  55. 平等拓範, "パネルディスカッション ニッポンの向かう先はいずこか? 導入トーク:光・レーザー先端研究における世界の潮流・国際戦略分析 - Photonic Westを中心として- ," 光産業技術振興協会 第4回光材料・応用技術研究会, 東京, 3月4日(2016).

  56. 平等拓範, "Giant Micro-Photonics for Energy ? Micro-Domain Controlled Lasers Using Magnetic Field and Spin-Orbit Interaction -," 第100回磁性研ゼミナール, 豊橋技術科学大学, 豊橋, 3月11日?12日 (2016): T. Taira, "Giant Micro-Photonics for Energy ? Micro-Domain Controlled Lasers Using Magnetic Field and Spin-Orbit Interaction -," The 100th Anniversary Magnetics Lab Seminar, Toyohashi University of Technology, Toyohashi, March 11 -12 (2016).

  57. 平等拓範, "レーザー点火技術と波及効果," レーザー特別セミナー「自動車の安全を支える光技術」, OPTICS & PHOTONICS International Exibition 2016 (OPIE’16), パシフィコ横浜, 横浜, 5月20日 (2016).

  58. 平等拓範, "マイクロ固体フォトニクスによる小型ジャイアントパルスレーザー," 2016年(一社)レーザー学会 東京支部セミナー 第27回「若手技術者のためのレーザー応用セミナー」, 慶應義塾大学 理工学部矢上キャンパス, 横浜, 7月22日 (2016).

  59. 平等拓範, "自動車へのレーサ?ー応用加速の理由(カ?イタ?ンス) ," 光産業技術振興協会 第2回光材料・応用技術研究会, 東京, 8月26日(2016).

  60. 平等拓範, 「マイクロ固体フォトニクスによる高輝度テラヘルツ波生成」, 名古屋市工業研究所, ?公益財団法人 名古屋産業振興公社, テラヘルツ応用技術講演会~テラヘルツ波の応用可能性と展望~, 名古屋市工業研究所, 名古屋, 2016年11月28日(2016).

  61. 平等拓範, "超小型高輝度レーザーの最新動向," 日亜化学工業(株), 徳島県阿南市, 2017年1月.


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