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 アト秒科学研究チーム            English
        理化学研究所 光量子工学研究センター  エクストリームフォトニクス研究領域


 

 研究成果(2014年度)  

 
原著論文

J. Xu, D. Wu, J. Y. Ip, K. Midorikawa, and K. Sugioka, “Vertical sidewall electrodes monolithically integrated into 3D glass microfluidic chips using water-assisted femtosecond-laser fabrication for in situ control of electrotaxis”, RSC Adv. 5, 24072-24080 (2015).

D. Wu, J. Xu, L. Niu, S. Wu, K. Midorikawa, and K. Sugioka, “In-channel integration of designable micro optical devices using flat scaffold-supported femtosecond-laser micro fabrication for coupling-free optofluidic cell counting”, Light: Sci. & Appl. 4, e228 (2015).

D. Wu, L. G. Niu, S. Z. Wu, J. Xu, K. Midorikawa, and K. Sugioka, “Ship-in-a-bottle femtosecond laser integration of optofluidic microlens arrays with center-pass units enabling coupling-free parallel cell counting with 100% success rate”, Lab. Chip. 15, 1515-1523 (2015).

E. Loetstedt and K. Midorikawa, “Carrier-envelop phase control of electron motion in laser-driven H32+”, J. Phys. B 47, 204018 (2014).

E. Loetstedt and K. Midorikawa, “Ejection of innershell electrons induced by recollision in a laser-driven carbon atom”, Phys. Rev. A 90, 043415 (2014).

A. Amani Eilanlou, Y. Nabekawa, M. Kuwata-Gonokami, and K. Midorikawa, “Femtosecond laser pulses in a Kerr lens mode-locked thin-disk ring oscillator with an intra-cavity peak power beyond 100 MW,” Jpn. J. Appl. Phys. 53, 082701 (2014).

H. Kinoshita, T. Harada, Y. Nagata, T. Watanabe, and K. Midorikawa, “Development of EUV mask inspection system using high-order harmonic generation with a femtosecond laser,” Jpn. J. Appl. Phys. 53, 086701 (2014).

T. Okino, Y. Furukawa, T. Shimizu, Y. Nabekawa, K, Yamanouchi, and K. Midorikawa, “Nonlinear Fourier transformation spectroscopy of small molecules with intense attosecond pulse train,” J. Phys. B 47, 124007 (2014).

D. Wu, S. Z. Wu, J. Xu, L. G. Niu, K. Midorikawa ,and K. Sugioka, “Hybrid femtosecond laser microfabrication to achieve true 3D glass/polymer composite biochips with multiscale features and high performance: the concept of ship-in-a-bottle biochip,” Laser & Photo. Rev. 8, 458-467 (2014).

P. Lan, Y. Zhou, A. N. Pfeiffer, Q. Zhang, P. Lu, and K. Midorikawa, “Revealing the role of electron correlation in sequential double ionization,” Phys. Rev. A 89, 033424 (2014).

S. Nakashima, K. Sugioka, Katsumi Midorikawa, and Kohki Mukai, “Plasmonically coupled Faraday effect in Fe- and Au-doped silicate glasses irradiated with femtosecond laser”, J. Laser Micro/Nanoengin. 9, 132-136 (2014).

A. Matsuda, E. J. Takahashi, and A. Hishikawa, “Time-resolved laser Coulomb explosion imaging using few-cycle intense laser pulses: Application to exploding CS2 in highly charged states”, J. Electron Spectroscopy 195, 327 (2014).

F. He, B. Zeng, W. Chu, J. Ni, K. Sugioka, Y. Cheng, and C. G. Durfee: “Characterization and control of peak intensity distribution at the focus of a spatiotemporally focused femtosecond laser beam”, Opt. Express 22, 9734-9748 (2014).

M. Füle, J. Budai, Z. Szkiva, K. Sugioka, and L. Nanai, “Self repeating surface morphology on ultrashort laser pulse-treated vanadium surface”, J. Laser Micro/Nanoengin. 9, 46-51 (2014).

J. Song, J. Lin, J. Tang, Y. Liao, F. He, Z. Wang, L. Qiao, K. Sugioka, and Ya Cheng: “Fabrication of an integrated high-quality-factor (high-Q) optofluidic sensor by femtosecond laser micromachining”, Opt. Express 22, 14792-14802 (2014).


総説、技術資料、proceedings、その他

K. Sugioka: “Hybrid femtosecond laser 3D microfabrication: reliable tool for fabrication of functional biochips”, LIA Today, 2015Jan/Feb. p.10-12 (http://content.yudu.com/Library/A3fnv8/LIATODAYJanuary Febru/resources/index.htm?referrerUrl=http%3A%2F%2Fbeta.yudu.com%2Fitem%2Fdetails%2F2828886%2FLIA-TODAY---January-February-2015-Issue) (2015).

K. Sugioka: “Ultrafast laser micro- and nano-processing of glasses”, P. Ossi (Ed.), Lasers in Materials Science, (Springer, Berlin) p. 359-380 (2014).

K. Sugioka and Y. Cheng: “Fabrication of 3D microfluidic structures inside glass by femtosecond laser micromachining”, Appl. Phys. A114, 215-221 (2014).

Y. Liao, B. Zeng, L. Qiao, L. Liu, K. Sugioka, and Y. Cheng: “Threshold effect in femtosecond laser induced nanograting formation in glass: influence of the pulse duration”, Appl. Phys. A114, 223-230 (2014).

K. Sugioka and Y. Cheng: “Ultrafast lasers - reliable tools for advanced materials processing”, Light: Sci. & Appl. 3, e149 (2014).

K. Sugioka, J. Xu, D. Wu, Y. Hanada, Z. Wang, Y. Cheng, and K. Midorikawa: “Femtosecond laser 3D micromachining: a powerful tool for the fabrication of microfluidic, optofluidic, and electrofluidic devices based on glass”, Lab. Chip. 14, 3447-3458 (2014).

F. He, Y. Liao, J. Lin, J. Song, L. Qiao, Y. Cheng, and K. Sugioka: “Femtosecond laser fabrication of monolithically integrated microfluidic sensors in glass”, Sensors 14, 19402-19440 (2014).

K. Sugioka and Y. Cheng: “Femtosecond laser three-dimensional micro- and nanofabrication”, Appl. Phys. Rev. 1, 041303 (2014).

K. Sugioka and Y. Cheng: “Fabrication of 3D microfluidic structures inside glass by femtosecond laser micromachining”, Advances in Engineering (http://advanceseng.com/applied-physics/fabrication-3d-microfluidic-structures-inside-glass-femtosecond-laser-micromachining/) (2014).

古川裕介、鍋川康夫、緑川克美:“アト秒フリンジ分解計測によるフーリエ変換分子分光”、CSJカレントレビュー:強光子場の化学、 91-97 (2015).

沖野友哉、山内薫:“強光子場・アト秒科学の基礎と歴史”、CSJカレントレビュー:強光子場の科学、14-25 (2015).

磯部圭佑,緑川克美:“空間重なり変調による深部観察での背景光を除去する多光子励起顕微鏡”、光学、44、18-22 (2015)

高橋栄治、緑川克美:“水の窓領域におけるフルコヒーレント光の発生、”O plus E 36、266 (2014).

磯部圭祐、緑川克美:“非線形光学顕微鏡の深部超解像化”、光アライアンス、25、12-15 (2014).

磯部圭祐、緑川克美:“非線形光学顕微鏡の基本的限界を超える手法”、O pulse E、32、157-162 (2014).

杉岡幸次:“レーザプロセシング”、光学技術の辞典(朝倉書店、東京)91-93 (2014).

杉岡幸次:“超短パルスレーザによる精密•微細加工技術”、機械技術 62、41-44 (2014).

杉岡幸次:“2.7 レーザ加工分野の市場動向: 2.7.1 はじめに”、光産業の動向((財)光産業技術振興協会編)、199-205 (2014).

杉岡幸次:“2.7 レーザ加工分野の市場動向: 2.7.3 おわりに”、光産業の動向((財)光産業技術振興協会編)、228-229 (2014).

花田修賢、杉岡幸次:“超短パルスレーザを用いた水棲生物観察用バイオチップ”、レーザー加工学会誌、21、6-10 (2014).

杉岡幸次:“レーザ加工分野の最近の動向=超短パルスレーザ三次元加工=”、光アライアンス、25、38-42 (2014).

杉岡幸次:“超短パルスレーザプロセシング-基礎から最近の進展ならびに産業応用まで-”、OITDAオプトニューズ、Vol. 9、48-53 (2014).


招待講演

F. Sima, D. Wu, J. Xu, K. Midorikawa, K. Sugioka, “Hybrid subtractive and additive femtosecond laser micro-machining for highly functional biochip fabrication”, 6th European Conference on Applications of Femtosecond Lasers in Materials Science (FemtoMat 2015), Mauterndorf, Austria, March (2015).

K. Sugioka, “Advances in ultrafast laser processing in the last two decades and the future”, SPIE Int. Sypm. on Laser Applications in Microelectronic and Optoelectronic Manufacturing XX (LAMOM XX), San Francisco, USA, Feb. (2015).

K. Midorikawa, “Generation and application of intense isolated attosecond pulses”, Frontier in Attosecond Lasers and Science, Hsinchu, Taiwan, Dec. (2014).

K. Midorikawa, “Nuclear reaction by laser induced proton recollision,” ICOMP 13, Shanghai, China, Dec. (2014).

Y. Nabekawa, and K. Midorikawa, “A-few-pulse attosecond pulse train: generation and applications”, The 2nd RIKEN-SJTU Workshop on Energy, Environment and Photonics, Wako, Japan, Nov. (2014).

T. Okino, Y. Furukawa, Y. Nabekawa, A. Amani Eilanlou, E. J. Takahashi, K. Yamanouchi, and K. Midorikawa, “Observation of Vibrational and Electron Wavepackets in Nitrogen Molecule with Intense a-Few-Pulse Attosecond Pulse Train”, Asian Symposium on Intense Laser Science 8, Taipei, Taiwan, Nov. (2014).

N. Kanda, A. Amani Eilanlou, T. Imahoko, T. Sumiyoshi, Y. Nabekawa, M. Kuwata-Gonokami, and K. Midorikawa, “Yb:YAG Thin Disk Mode-Locked Oscillator with High Pulse Energy for Intra-Cavity High Harmonic Generation,” IEEE Photonics Conference 2014, San Diego, USA, Oct. (2014).

K. Sugioka, D. Wu, J. Xu, and K. Midorikawa, “Ship-in-a-bottle integration by hybrid femtosecond laser processing for fabrication of highly functional biochips”, 23rd Int. Cong. on Applications of Lasers & Electro-Optics (ICALEO 2014), San Diego, USA, Oct. (2014).

K. Midorikawa, “Probing atomic and molecular processes by intense attosecond pulses”, Frontier in Optics and Laser Science 2014, Tucson, USA, Oct. (2014).

E. J. Takahashi, “Generation of high-power isolated attosecond pulses by an infrared TC gating”, Frontier in Optics and Laser Science 2014, Tucson, USA, Oct. (2014).

J. Xu, K. Midorikawa, and K. Sugioka, “Electrofluidics fabricated by femtosecond laser direct writing”, 22nd Int. Conf. on Advanced Laser Technology (ALT’ 14), Cassis, France, Oct. (2014).

Y. Cheng, Y. Liao, and K. Sugioka, “Sub-50 nm ablation inside a mesoporous glass immersed in liquid with femtosecond laser pulses: Mechanism and applications”, The 9th International Conference on Photo-Excited Processes and Applications (ICPEPA-9), Matsue, Japan, Sept.-Oct. (2014).

K. Midorikawa, “Intense attosecond pulses for Probing ultrafast molecular dynamics,” The 5th International Symposium on Filamentation, Shanghai, China, Sept. (2014).

K. Sugioka, J. Xu, D. Wu, and K. Midorikawa, “Femtosecond laser 3D micromachining: reliable tool for fabrication of highly functional biochips”, 23rd General Meeting of the International Commission for Optics (ICO-23), Santiago de Compostela, Spain, Aug. (2014). Keynote talk

Y. Hanada and K. Sugioka, “Cell observation in functional biochips fabricated by femtosecond laser direct writing”, The IUMRS International Conference in Asia 2014 IUMRS-ICA, Fukuoka, Japan, Aug. (2014).

K. Midorikawa, "Generation and application of intense attosecond pulses for observing attosecond quantum waqvepackets in molecules", Intense Field, Short Wavelength Atomic and Molecular Processes-3, Hamburg, Germany, July (2014).

K. Midorikawa, “Probing ultrafast molecular dynamics with intense attosecond pulses,” The 19th International Conference on Ultrafast Phenomena, Okinawa, Japan, July (2014).

K. Sugioka, “Ultrafast laser micro and nano processing – From fundamentals to industrial applications”, 4th Int. School on on Lasers in Materials Science (SLIMS 2014), Venice, Italy, July (2014). Tutorial talk

K. Midorikawa, “Nuclear reaction by laser induced proton recollision,” International Workshop on Status and Prospects of High Energy Density Science by Giant Lasers, Tokyo, June (2014).

K. Sugioka, F. He, and Y. Cheng, “High aspect ratio, taper-free through Si vias fabricated by femtosecond laser Bessel beam”, 1st Japan-France Workshop on Heterogeneous Integration and its Application by Three Dimensional Structures, Tokyo, Japan, June (2014).

K. Midorikawa, “Nuclear reaction induced by proton recollision,” The 5th Shanghai Tokyo Advanced Research Symposium on Ultrafast Intense Laser Science, Miyazaki, May (2014).

K. Sugioka, J. Xu, D. Wu, and K. Midorikawa, “Ship-in-a-bottle biochips fabricated by hybrid femtosecond laser processing”, The 5th Shanghai-Tokyo Advanced Research Symposium on Ultrafast Intense Laser Science (STAR5), Miyazaki, May (2014).

Y. Nabekawa, Y. Furukawa, T. Okino, A. Amani Eilanlou, E. J. Takahashi, K. Yamanouchi, and K. Midorikawa, “Applications of intense sub-10-fs XUV harmonic fields to reveal ultrafast dynamics of simple molecules,” Annual meeting / international symposium of Spectroscopical Society of Japan 2014, Saitama, Japan, May (2014).

K. Midorikawa, “The next generation of coherent XUV and attosecond light sources”, The 9th Asian Pacific Laser Symposium, Yokohama, April (2014).

K. Sugioka, S. Wu, and K. Midorikawa, “Double-pulsed ultrashort laser welding of glasses toward multifold enhancement of process efficiency”, 1st Samrt Laser Processing Conf. (SLPC 14), Yokohama, April (2014).

沖野友哉、“アト秒非線形フーリエ分光による超高速分子ダイナミクスの実時間追跡”、 第26回先端光量子科学アライアンスシンポジウム、横浜、3月 (2015).

沖野友哉、“高強度アト秒パルス光源を用いた超高速分子ダイナミクスの実時間観測”、電気学会専門委員会:ナノメディシンに向けた光・量子ビーム応用技術調査専門委員会、東京、3月 (2015).

杉岡幸次、“除去•付加複合フェムト秒レーザー3次元加工”、第62回応用物理学会春期学術講演会シンポジウム「レーザーによる3次元造形技術の最先端から実用まで」、平塚、3月 (2015).

緑川克美、“理研における光量子工学研究”、第4回電子光技術シンポジウム「超短パルスレーザーの応用とポータブルセンサの未来」、秋葉原、2月 (2015).

鍋川康夫、“高強度アト秒パルス列を用いた量子波束の観測”、第7回超高速時間分解光計測研究会、浜松、2月 (2015).

花田修賢、石川依久子、杉岡幸次、“細胞の詳細観察を可能にするフェムト秒レーザーを用いたバイオチップ作製”、レーザー学会学術講演会第35回年次大会、東京、1月 (2015).

高橋栄治、“二波長合成レーザー場を用いた単一アト秒パルスの高出力化”、第6回超高速光エレクトロニクス研究会、柏市、1月 (2015)

高橋栄治、“ギガワット級単一アト秒パルスの発生”、レーザー学会学術講演会第35回年次大会、東京、1月 (2015).

神田夏輝、アマニ・イランル、今鉾友洋、住吉哲実、鍋川康夫、五神真、緑川克美、“共振器内高次高調波発生に向けたYb:YAG Thin Disk高強度超短パルス発振器の開発”、レーザー学会学術講演会第35回年次大会、東京、1月 (2015).

磯部圭佑、緑川克美、“試料をより深く,より細かく観察する技術”、応用物理学会・量子エレクトロニクス研究会「バイオ・メディカルフォトニクスII~量子エレクトロニクスはいかに医生物学に貢献できるか~」、軽井沢,12月 (2014).

杉岡幸次、“フェムト秒レーザー3次元加工技術と高機能バイオチップ作製への応用”、九州大学大学院博士課程リーディングプログラム第60回分子システムデバイスセミナー、福岡、12月 (2014).

高橋栄治、“高出力アト秒パルス光源の現状と今後”、レーザー学会第469回研究会、喜多方市、12月 (2014).

緑川克美、“光量子工学研究”、理化学研究所と親しむ会第20回セミナー、東京、11月 (2014).

杉岡幸次、“フェムト秒レーザー3次元複合加工技術とバイオチップ作製への応用”、第15回光量子科学研究シンポジウム、奈良、11月 (2014).

沖野友哉、”アト秒フーリエ非線形分子分光”、分光セミナー:超高速分子分光の新展開:気相~固相、東京、11月 (2014).

神田夏輝、“共振器内高次高調波発生のためのYb:YAG Thin Diskモード同期発振器”、第5回超高速光エレクトロニクス研究会、熱海、11月 (2014).

緑川克美、“アト秒科学の展望”、京都大学化学研究所先端ビームナノ科学センター「ビーム科学・高エネルギー科学」講演会、京都、10月 (2014).

杉岡幸次、“レーザ加工分野の最新動向”、平成26年光産業技術振興協会光産業動向セミナー、横浜、10月 (2014).

杉岡幸次、“フェムト秒レーザー3次元加工とバイオチップ作製への応用”、第24回先端光量子科学アライアンスセミナー、和光、9月 (2014).

杉岡幸次、“フェムト秒レーザー3次元微細加工:バイオチップ作製への応用”、光ものづくりセミナー<レーザーの革新的加工応用について>、京都、5月 (2014).

杉岡幸次、“超短パルスレーザプロセッシングの進展と産業応用”、第371回光産業技術振興協会マンスリーセミナー、東京、4月 (2014).




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