2024

    Original papers and Conference proceedings


  1. Size- and Shape-Dependent Separation of Multinary Quantum Dots with Plasmonic Thin-Layer Chromatography
    Kazutaka Akiyoshi, Yui Maeda, Naoko Yamaguchi, Tatsuya Kameyama, Yasuyuki Tsuboi, Hidemasa Yamane, Hajime Ishihara, and Tsukasa Torimoto
    The Journal of Physical Chemistry C 2024 128 (2), 908-918
    doi:10.1021/acs.jpcc.3c06531


  2. Nanorod Size Dependence of Coherent Coupling between Individual and Collective Excitations via Transverse Electromagnetic Field
    Masayuki Iio, Tomohiro Yokoyama, Takeshi Inaoka, and Hajime Ishihara
    Journal of the Physical Society of Japan, 93, 024701 (2024)
    doi:10.7566/JPSJ.93.024701


  3. Optical Imaging of a Single Molecule with Subnanometer Resolution by Photoinduced Force Microscopy
    Tatsuya Yamamoto, Hidemasa Yamane, Nobuhiko Yokoshi, Hisaki Oka, Hajime Ishihara, and Yasuhiro Sugawara
    ACS Nano Vol. 18, pp. 1724–1732 (2024)
    doi:10.1021/acsnano.3c10924


  4. Mapping electric field components of superchiral field with photo-induced force
    Hidemasa Yamane, Masayuki Hoshina, Nobuhiko Yokoshi, and Hajime Ishihara
    J. Chem. Phys. 160, 044115 (2024)
    doi:10.1063/5.0179189


  5. Scheme to Enhance Hot Carrier Generation Owing to the Localized Mode of Hybridized Plasmon in Gold Nanoparticle Arrays
    Soshun Inoue, Tomohiro Yokoyama, Keiji Sasaki, Hiroaki Misawa, and Hajime Ishihara
    The Journal of Physical Chemistry C
    doi:10.1021/acs.jpcc.3c08435



2023

    Original papers and Conference proceedings


  1. Near-field circular dichroism of single molecules
    Hidemasa Yamane, Nobuhiko Yokoshi, Hisaki Oka, Yasuhiro Sugawara, and Hajime Ishihara
    Optics Express Vol. 31, pp. 3415-3426 (2023)
    doi:10.1364/OE.476011


  2. Rotational dynamics of indirect optical bound particle assembly under a single tightly focused laser
    Yukihiro Tao, Tomohiro Yokoyama, and Hajime Ishihara
    Optics Express Vol. 31, pp. 3804-3820 (2023)
    doi:10.1364/OE.479643
    Highlighted as an Editor’s Pick


  3. Directional Characteristics of Superfluorescence Controlled by Spatial Configurations
    Hirofumi Shiraki, Nobuhiko Yokoshi, and Hajime Ishihara
    J. Phys. Soc. Jpn., Vol. 92, 024402 (2023)
    doi:10.7566/JPSJ.92.024402


  4. Functionalized High-Speed Magnon Polaritons Resulting from Magnonic Antenna Effect
    Kenta Kato, Tomohiro Yokoyama, and Hajime Ishihara
    Phys. Rev. Applied 19, 034035
    doi:10.1103/PhysRevApplied.19.034035


  5. Basics of optical force
    Mamoru Tamura, Takudo Wada, and Hajime Ishihara
    Journal of Photochemistry and Photobiology C: Photochemistry Reviews Vol. 54, 100570 (2023)
    doi:10.1016/j.jphotochemrev.2023.100570


  6. Enantioselective optical trapping of single chiral molecules in the superchiral field vicinity of metal nanostructures
    Hidemasa Yamane, Nobuhiko Yokoshi, Hajime Ishihara, and Hisaki Oka
    Optics Express Vol.31, pp. 13708-13723 (2023)
    doi:10.1364/OE.482207


  7. Quantum-Coherence-Enhanced Hot-Electron Injection under Modal Strong Coupling
    Yen-En Liu, Xu Shi, Tomohiro Yokoyama, Soshun Inoue, Yuji Sunaba, Tomoya Oshikiri, Quan Sun, Mamoru Tamura, Hajime Ishihara, Keiji Sasaki, and Hiroaki Misawa
    ACS Nano Vol.17, pp. 8315-8323 (2023)
    doi:10.1021/acsnano.2c12670


  8. Ultrafast sensitivity-controlled and specific detection of extracellular vesicles using optical force with antibody-modified microparticles in a microflow system
    Kana Fujiwara, Yumiko Takagi, Mamoru Tamura, Mika Omura, Kenta Morimoto, Ikuhiko Nakase, Shiho Tokonami and Takuya Iida
    Nanoscale Horizons 8, 1034-1042(2023)
    doi:10.1039/d2nh00576j


  9. Promoting Oxygen Reduction Reaction by Excitation of Localized Surface Plasmon of Shape- and Facet-Controlled Octahedral Au@Pt Core-Shell Nanocrystals
    Tatsuya Kameyama, Kentaro Sato, Takahisa Yamamoto, Mamoru Tamura, Takuya Iida, Tatsuya Shoji, Yasuyuki Tsuboi, and Tsukasa Torimoto
    ChemElectroChem, 10, e202300182 (2023)
    doi:10.1002/celc.202300182


  10. Josephson diode effect derived from short-range coherent coupling
    Sadashige Matsuo, Takaya Imoto, Tomohiro Yokoyama, Yosuke Sato, Tyler Lindemann, Sergei Gronin, Geoffrey C. Gardner, Michael J. Manfra, and Seigo Tarucha
    Nature Physics (2023)
    doi:10.1038/s41567-023-02144-x


  11. Formulation of optical force induced by superfluorescence
    Nobuhiko Yokoshi, Hirofumi Shiraki, Hajime Ishihara
    Proc. SPIE 12606, Optical Manipulation and Structured Materials Conference, 126060F (20 September 2023)
    doi:10.1117/12.3008331


  12. Extended optical binding with single and two focal laser beams
    Tomohiro Yokoyama, Yukihiro Tao, Hajime Ishihara
    Proc. SPIE 12606, Optical Manipulation and Structured Materials Conference, 126060O (20 September 2023)
    doi:10.1117/12.3008342


  13. How does optical vortex advance laser-induced forward transfer
    Mamoru Tamura, Satoyuki Kawano, Takashige Omatsu
    Proc. SPIE 12606, Optical Manipulation and Structured Materials Conference, 126060R (20 September 2023)
    doi:10.1117/12.3008346


  14. Analysis by nonlocal response theory of tip-enhanced photoluminescence image of a single molecule
    Yoshitsugu Tomoshige, Mamoru Tamura, Tomohiro Yokoyama, and Hajime Ishihara
    Proc. SPIE 12606, Optical Manipulation and Structured Materials Conference, 126060T (20 September 2023)
    doi:10.1117/12.3008348


  15. Luminescence-driven optomechanical system with micromechanical membranes
    H. Arahari, S. Konishi, S. Akita, H. Ishihara
    Proc. SPIE 12606, Optical Manipulation and Structured Materials Conference, 126060Y (20 September 2023)
    doi:10.1117/12.3008356


  16. Light-induced acceleration of antigen-antibody reaction for detecting attogram-level proteins
    Takuya Iida, Shota Hamatani, Yumiko Takagi, Kana Fujiwara, Mamoru Tamura, Shiho Tokonami
    Proc. SPIE 12606, Optical Manipulation and Structured Materials Conference, 1260618 (20 September 2023)
    doi:10.1117/12.3008371


  17. Effect of interface in fiber-based optical condensation
    Kota Hayashi, Mamoru Tamura, Masazumi Fujiwara, Shiho Tokonami, Takuya Iida
    Proc. SPIE 12606, Optical Manipulation and Structured Materials Conference, 1260619 (20 September 2023)
    doi:10.1117/12.3008375



    Interpretive articles, Reviews


  1. H. Ishihara, K. Sasaki, J. Hofkens, K. Imura, S. Ishizaka
    “Preface: Optical force techniques”
    For the Special Issues “Cutting-edge optical force techniques for materials science and technologies”, Journal of Photochemistry and Photobiology C: Photochemistry Reviews (2023)
  2. H. Ishihara
    Now and Future enriched by "unexpected"
    Manufacturing & Technology Vol.75, No.2 pp. 59-62 (2023 Spring issue)
  3. H. Ishihara, Mamoru Tamura
    「プラズモニクス」(第2編、第10章)光と物質の量子相互作用ハンドブック
    (エヌ・ティー・エス 出版)(2023)

2022

    Original papers and Conference proceedings


  1. Optical force spectroscopy for measurement of nonlinear optical coefficient of single nanoparticles through optical manipulation
    T. Wada and H. Ishihara
    Optics Express Vol. 30, pp. 17490-17516 (2022)
    doi:10.1364/OE.456122


  2. Comprehensive microscopic theory for coupling of individual and collective excitations via longitudinal and transverse fields
    Tomohiro Yokoyama, Masayuki Iio, Takashi Kinoshita, Takeshi Inaoka, and Hajime Ishihara
    Physical Review B Vol. 105, p. 165408 (2022)
    doi:10.1103/PhysRevB.105.165408


  3. Light intensity imbalance in 2D magnetic photonic crystals with a real number in off-diagonal components of a dielectric tensor
    A. Syouji, Y. Kamijyo, K. Fukushima, and H. Ishihara
    Journal of Magnetism and Magnetic Materials, Vol. 551, 168990 (2022)
    doi:10.1016/j.jmmm.2021.168990


  4. Development of plasmonic thin-layer chromatography for size-selective and optical-property-dependent separation of quantum dots
    Tsukasa Torimoto, Naoko Yamaguchi, Yui Maeda, Kazutaka Akiyoshi, Tatsuya Kameyama, Tatsuya Nagai, Tatsuya Shoji, Hidemasa Yamane, Hajime Ishihara, and Yasuyuki Tsuboi
    NPG Asia Materials, Vol. 14, p. 64 (2022)
    doi:10.1038/s41427-022-00414-3


  5. Plasmonic nanoscale temperature shaping on a single titanium nitride nanostructure
    Mamoru Tamura, Takuya Iida, and Kenji Setoura
    Nanoscale, Vol. 14, p. 12589 (2022)
    doi:10.1039/D2NR02442J


  6. Nanoneedle formation via doughnut beam-induced Marangoni effects
    Mamoru Tamura, Takashige Omatsu, and Takuya Iida
    Optics Express, Vol. 30, Issue 20, pp. 35136-35145 (2022)
    doi:10.1364/OE.460962


  7. Optical gradient force on chiral particles
    Junsuke Yamanishi, Hyo-Yong Ahn, Hidemasa Yamane, Shun Hashiyada, Hajime Ishihara, Ki Tae Nam, and Hiromi Okamoto
    Science Advances, Vol. 8, p. eabq2604 (2022)
    doi:10.1126/sciadv.abq2604


  8. Attogram-level light-induced antigen-antibody binding confined in microflow
    Takuya Iida, Shota Hamatani, Yumiko Takagi, Kana Fujiwara, Mamoru Tamura, and Shiho Tokonami
    Communications Biology Vol. 5, 1053 (2022)
    doi:10.1038/s42003-022-03946-0


  9. Chirality-selective superfluorescence based on chiral interactions
    Hirofumi Shiraki, Nobuhiko Yokoshi, and Hajime Ishihara
    Physical Review A 106, 053511 (2022)
    doi:10.1103/PhysRevA.106.053511


  10. Quantitative fluorescence spectroscopy of living bacteria by optical condensation with a bubble-mimetic solid–liquid interface
    Kota Hayashi, Mamoru Tamura, Shiho Tokonami, and Takuya Iida
    AIP Advances 12, 125214 (2022)
    doi:10.1063/5.0104984


  11. Light-Induced Condensation of Biofunctional Molecules around Targeted Living Cells to Accelerate Cytosolic Delivery
    Ikuhiko Nakase, Moe Miyai, Kosuke Noguchi, Mamoru Tamura, Yasuyuki Yamamoto, Yushi Nishimura, Mika Omura, Kota Hayashi, Shiroh Futaki, Shiho Tokonami, and Takuya Iida
    Nano Letters 22, 9805 (2022)
    doi:10.1021/acs.nanolett.2c02437



    Interpretive articles, Reviews


  1. Tomohiro Yokoyama
    Toyota Riken Scholar Report
    「Magnon Current and Optical Response Due to a Spatial Correlation between the Radiative Field and Magnon Excitation in Magnetic Nanostructures」
    豊田研究報告 第75号 2022年
  2. H. Ishihara and K. Cho
    “Nonlocal optical response of nanostructures”
    Reference Module in Materials Science and Materials Engineering (Elsevier, 2022)


2021

    Original papers and Conference proceedings


  1. Light intensity imbalance in 2D magnetic photonic crystals with a real number in off-diagonal components of a dielectric tensor
    A. Syouji, Y. Kamijyo, K. Fukushima, and H. Ishihara
    Journal of Magnetism and Magnetic Materials, Vol. 551, 168990 (2022)
    doi.org/10.1016/j.jmmm.2021.168990


  2. Optical selection and sorting of nanoparticles according to quantum mechanical properties
    H. Fujiwara, K. Yamauchi, T. Wada, H. Ishihara, Keiji Sasaki
    Science Advances Vol. 7, no. 3, eabd9551 (2021)
    doi.org/10.1126/sciadv.abd9551


  3. Optical manipulation of nanoscale materials by linear and nonlinear resonant optical responses
    H. Ishihara
    Advances in Physics: X, 6, 1, 1885991 (2021)
    doi.org/10.1080/23746149.2021.1885991


  4. Twisted light-induced spin–spin interaction in a chiral helimagnet
    Y. Goto, H. Ishihara, N. Yokoshi
    New J. Phys. 23 053004 (2021)
    iopscience.iop.org/article/10.1088/1367-2630/abf613/meta


  5. Optical force mapping at the single-nanometre scale
    J. Yamanishi, H. Yamane, Y. Naitoh, Y. J. Li, N. Yokoshi, T. Kameyama, S. Koyama, T. Torimoto, H. Ishihara & Y. Sugawara
    Nature Communications 12, 3865 (2021)
    doi.org/10.1038/s41467-021-24136-2
    Featured in Editors’ Highlights


  6. Single-molecule laser nanospectroscopy with micro–electron volt energy resolution
    H. Imada, M. Imai-Imada, K. Miwa, H. Yamane, T. Iwasa, Y. Tanaka, N. Toriumi, K. Kimura, N. Yokoshi, A. Muranaka, M. Uchiyama, T. Taketsugu, Y. K. Kato, H. Ishihara, and Yousoo Kim
    Science 02 Jul 2021: Vol. 373, Issue 6550, pp. 95-98
    DOI: 10.1126/science.abg8790


  7. High-Resolution Measurement of Molecular Internal Polarization Structure by Photoinduced Force Microscopy
    H. Yamane, N. Yokoshi and H. Ishihara
    Applied Science 11, 6937 (2021)
    doi.org/10.3390/app11156937


  8. Dispersion relation of spin wave in chiral helimagnet under stationary optical vortex radiation
    Y. Goto, H. Ishihara, and N. Yokoshi
    J. J. Appl. Phys. 60, 098001 (2021)
    doi.org/10.35848/1347-4065/ac14a6


  9. Optical Trapping of Nanocrystals at Oil/Water Interfaces: Implications for Photocatalysis
    Yasuyuki Tsuboi, Shota Naka, Daiki Yamanishi, Tatsuya Nagai, Ken-ichi Yuyama, Tatsuya Shoji, Bunsho Ohtani, Mamoru Tamura, Takuya Iida, Tatsuya Kameyama, and Tsukasa Torimoto
    ACS Appl. Nano Mater. 4, 11, 11743–11752 (2021)
    doi:10.1021/acsanm.1c02335


  10. Formulation of resonant optical force based on the microscopic structure of chiral molecules
    T. Horai, H. Eguchi, T. Iida, and H. Ishihara
    Optics Express Vol. 29, Issue 23, pp. 38824-38840 (2021)
    doi.org/10.1364/OE.440352


  11. Electromagnetic near-field responses of a chiral molecule on a metal surface
    H Yoneji, N Yokoshi, H Ishihara
    Optical Manipulation and Structured Materials Conference 2021 11926, 72-74
    www.spiedigitallibrary.org/conference-proceedings-of-spie/11926/1192615/Autonomous-vibration-of-a-luminescent-thin-film-arising-from-luminescence/10.1117/12.2616172.short


  12. Theoretical study on modeling and sorting of real Chiral molecules by using resonant optical force
    T. Horai, H. Eguchi, T. Iida, and H. Ishihara
    Proc. SPIE 11926, Optical Manipulation and Structured Materials Conference 2021, 119260M (27 October 2021)
    www.spiedigitallibrary.org/conference-proceedings-of-spie/11926/119260M/Theoretical-study-on-modeling-and-sorting-of-real-Chiral-molecules/10.1117/12.2616124.short


  13. Autonomous vibration of a luminescent thin film arising from luminescence-induced optical force
    H. Arahari, and H. Ishihara
    Proc. SPIE 11926, Optical Manipulation and Structured Materials Conference 2021, 1192615 (27 October 2021)
    www.spiedigitallibrary.org/conference-proceedings-of-spie/11926/1192615/Autonomous-vibration-of-a-luminescent-thin-film-arising-from-luminescence/10.1117/12.2616172.short



    Interpretive articles, Reviews


  1. H. Ishihara, M. Hoshina, H. Yamane, and N. Yokoshi
    "Light-Nanomatter Chiral Interaction in Optical Force Effects"
    Chirality, Magnetism and Magnetoelectricity: Separate Phenomena and Joint Effects in Metamaterial Structures, Ed. Eugene Kamenetskii (Springer; 1st ed. 2021).
  2. 石原一
    研究室紹介「大阪大学大学院基礎工学研究科物質創成専攻未来物質領域 ナノ光物性研究室」
    光アライアンス 2021年4月号 60-63
  3. 石原一
    石原 一・ 芦田 昌明 編著 「光圧 ―物質制御のための新しい光利用―」
    朝倉書店 2021年
  4. 藤原英樹・石原 一・笹木敬司
    光の力でナノ粒子を選別・分離する──高品質な医薬品,高感度なバイオセンサーの開発に貢献
    月刊化学 76巻6号, 53-56 (2021)(化学同人)


2020

    Original papers and Conference proceedings


  1. Plasmonic Manipulation of DNA using a Combination of Optical and Thermophoretic Forces: Separation of Different-Sized DNA from Mixture Solution
    T. Shoji, K. Itoh, J. Saitoh, N. Kitamura, T. Yoshii, K. Murakoshi, Y. Yamada, T. Yokoyama, H. Ishihara and Y. Tsuboi
    Scientific Reports 10, Article number: 3349 (2020)
    doi.org/10.1038/s41598-020-60165-5


  2. Thermal free ultrafast luminescence due to nonlocal light-matter interaction (Conference Presentation)
    M. Ichimiya, T. Matsuda, H. Ishihara and M. Ashida
    Ultrafast Phenomena and Nanophotonics XXIV 11278, 112780U (2020)
    doi.org/10.1117/12.2544760


  3. Nanoscale rotational optical manipulation
    M. Hoshina, N. Yokoshi and H. Ishihara
    Optics Express 28, 14980-14994 (2020)
    doi.org/10.1364/OE.393379


  4. Proposed method for highly selective resonant optical manipulation using counter-propagating lightt waves
    T. Wada, H. Fujiwara, K. Sasaki, and H. Ishihara
    Nanophotonics 9(10), 3335-3345 (2020)
    doi.org/10.1515/nanoph-2020-0072


  5. Theoretical analysis of optically selective imaging in photoinduced force microscopy
    H. Yamane, J. Yamanishi, N. Yokoshi, Y. Sugawara, and H. Ishihara
    Optics Express 28(23), 34787-34803 (2020)
    doi.org/10.1364/OE.409986



    Interpretive articles, Reviews


  1. M. Ashida, H. Ishihara1
    "Quantum effect and superradiance in nano-to-micro crossover size regime - thermal-free photonics -"
    Manufacturing & Technology Vol.72, No.2 71 (2020)


2019

    Original papers and Conference proceedings


  1. Femtosecond radiative decay of two excitons coupled via radiation-induced interaction in ZnO thin films (Conference Presentation)
    M. Ichimiya, T. Matsuda, T. Kinoshita, M. Nakayama, H. Ishihara and M. Ashida
    Ultrafast Phenomena and Nanophotonics XXIII 10916, 109160K (2019)
    doi:10.1117/12.2509409


  2. Proposed scheme of realization of artificial nano-heterostructures by optical force under double resonance
    Y. Yamada, M. Hoshina, T. Yokoyama and H. Ishihara
    Journal of Physics: Conference Series, 1220, 012040 (2019)
    doi:10.1088/1742-6596/1220/1/012040


  3. Optical selection rule of monolayer transition metal dichalcogenide by an optical vortex
    S. Ishii, N. Yokoshi and H. Ishihara
    Journal of Physics: Conference Series, 1220, 012056 (2019)
    doi:10.1088/1742-6596/1220/1/012056


  4. Ultrafast Photoluminescence without Phonon Scattering Due to Nonlocal Light-Matter Interaction
    M. Ichimiya, T. Matsuda, H. Ishihara and M. Ashida
    CLEO: Science and Innovations, JW2A, 32 (2019)
    doi:10.1364/CLEO_AT.2019.JW2A.32


  5. Proposed method of single-particle absorption measurement based on optical transport at solid-liquid interface
    T. Wada, H. Ishihara
    Proc. SPIE 11141, Optical Manipulation and Structured Materials Conference, 1114101 1114101-34, (2019)
    doi:10.1117/12.2535563


  6. Rotation control of nanoparticles by optical force using resonant nonlinear response
    M. Hoshina, N. Yokoshi, H. Ishihara
    Proc. SPIE 11141, Optical Manipulation and Structured Materials Conference, 1114101 1114101-41, (2019)
    doi:10.1117/12.2535563


  7. Proposal of an optical-force probe for chirality sensing of metallic nanostructures
    N. Yokoshi, M. Hoshina, H. Ishihara
    Proc. SPIE 11141, Optical Manipulation and Structured Materials Conference, 1114101 1114101-53, (2019)
    doi:10.1117/12.2535563


  8. Numerical demonstration of the alignment of multiple nanoparticles in a wide area beyond single focal laser spot
    Y. Tao, T. Matsuura, T. Yokoyama, H. Ishihara
    Proc. SPIE 11141, Optical Manipulation and Structured Materials Conference, 1114101 1114101-93, (2019)
    doi:10.1117/12.2535563


  9. Polarization-Dependence of Optical Trapping on Polystyrene Nanoparticles and Their Assembly Formation
    T. Yokoyama, T. Matsuura, Y. Tao, H. Ishihara
    Proc. SPIE 11141, Optical Manipulation and Structured Materials Conference, 1114101 1114101-95, (2019)
    doi:10.1117/12.2535563


  10. Transition strength of a standing optical vortex beam in monolayer transition metal dichalcogenidess
    S. Ishii, N. Yokoshi, H. Ishihara
    Proc. SPIE 11141, Optical Manipulation and Structured Materials Conference, 1114101 1114101-144, (2019)
    doi:10.1117/12.2535563


  11. Giant enhancement of cooperative effect in superfluorescence of arranged molecules by nanoscale metallic structures
    H. Shiraki, M. Hoshina, N. Yokoshi, and H. Ishihara
    Proc. SPIE 11141, Optical Manipulation and Structured Materials Conference, 1114101 1114101-212, (2019)
    doi:10.1117/12.2535563


  12. Dissipation effect on optical force and torque near interfaces
    D. Oue
    Journal of Optics, Vol. 21, p. 065601 (2019)
    doi:10.1088/2040-8986/ab1a84


  13. Up-conversion superfluorescence induced by abrupt truncation of coherent field and plasmonic nanocavity
    R. Hata, N. Yokoshi, H. Ajiki, and H. Ishihara
    The Journal of Chemical Physics 151, 224307 (2019)
    doi:10.1063/1.5128020


  14. Ultrafast thermal-free photoluminescence of coherently extended single quantum states
    T. Matsuda, M. Ichimiya, M. Ashida and H. Ishihara
    Scientific Reports 9, Article number: 8453 (2019)
    doi:10.1038/s41598-019-44940-7


  15. Synergetic Enhancement of Light-Matter Interaction by Nonlocality and Band Degeneracy in ZnO Thin Films
    T. Kinoshita, T. Matsuda, T. Takahashi, M. Ichimiya, M. Ashida, Y. Furukawa, M. Nakayama, and H. Ishihara
    Physical Review Letters Vol. 122, p. 157401 (2019)
    doi:10.1103/PhysRevLett.122.157401



    Interpretive articles, Reviews


  1. H. Ishihara
    "Nanoscale Optical Response"
    Comprehensive Nanoscience and Nanotechnology (Second Edition), Vol. 4, 2019, pp. 323–346 (Elsevier Science and Technology).
  2. 石原 一
    「光圧によるナノ物質操作と新しい物質科学への展開」
    CSJカレントレビュー 「プラズモンと光圧が導くナノ物質科学  -ナノ空間に閉じ込めた光で物質を制御す-」(化学同人)(2019).
  3. 石原 一、芦田 昌明
    「発熱するひまがない? – 超高速な光学現象を実証」
    academist Journal 2019年9月17日.
  4. 石原 一
    「光とナノ物質が織りなすミクロな世界」
    『生産と技術』Vol. 71, No. 4, 31(2019).
  5. 石原 一
    「光学非線形性を用いたナノ物質の新しい光圧操作」
    光アライアンス Vol. 30, No. 10, p28 (2019).


2018

    Original papers and Conference proceedings


  1. Proposed selective optical transport of nanoparticles using counterpropagating beams
    T. Wada and H. Ishihara
    Proc. SPIE 10712, Optical Manipulation Conference, 107121P (2018)
    doi:10.1117/12.2318989


  2. Super-Resolution Trapping: A Nanoparticle Manipulation Using Nonlinear Optical Response
    M. Hoshina, N. Yokoshi, H. Okamoto, and H. Ishihara
    ACS Photonics Vol. 5, pp. 318–323 (2018)
    doi:10.1021/acsphotonics.7b01078


  3. Vacuum Bloch–Siegert shift in Landau polaritons with ultra-high cooperativity
    X. Li, M. Bamba, Q. Zhang, S. Fallahi, G. C. Gardner, W. Gao, M. Lou, K. Yoshioka, M. J. Manfra, and J. Kono
    Nature Photonics Vol. 12, Iss. 6, pp. 324–329 (2018)
    doi:10.1038/s41566-018-0153-0


  4. Continuous transition between weak and ultra-strong coupling through exceptional points in carbon nanotube micro-cavity exciton polaritons
    W. Gao, X. Li, M. Bamba, and J. Kono
    Nature Photonics Vol. 12, Iss. 6, pp. 362–368 (2018)
    doi:10.1038/s41566-018-0157-9


  5. Spontaneous resonance between bound and delocalized excitons caused by enhanced radiative corrections
    T. Kinoshita, T. Matsuda, and H. Ishihara
    Physical Review B Vol. 97, p. 195451 (2018)
    doi:10.1103/PhysRevB.97.195451


  6. Observation of Dicke Cooperativity in Magnetic Interactions
    X. Li, M. Bamba, N. Yuan, Q. Zhang, Y. Zhao, M. Xiang, K. Xu, Z. Jin, W. Ren, G. Ma, S. Cao, D. Turchinovich, and J. Kono
    Science Vol. 361, Iss. 6404, pp. 794–797 (2018)
    doi:10.1126/science.aat5162


  7. Transient dynamics of super Bloch oscillations of a one dimensional Holstein polaron under the influence of an external AC electric field
    Z. Huang, M. Hoshina, H. Ishihara, and Y. Zhao
    Annalen der Physik (2018)
    doi:10.1002/andp.201800303




    Interpretive articles, Reviews


  1. N. Yokoshi and H. Ishihara
    "Giant multiphoton absorption in silicon"
    Nature Photonics vol. 12, pp. 125–126 (2018).
  2. 石原 一
    「光渦による非線形応答を用いたナノ微粒子の光圧操作」
    レーザー研究 Vol. 46, No. 4 pp. 173–177 (2018).
  3. 馬場 基彰
    「強は異なり~電磁場の相転移と熱平衡下の量子もつれ~」
    日本物理学会誌8月号 vol. 73, pp. 540–541 (2018).
  4. 石原 一
    「非線形光学効果による光圧操作」
    光技術コンタクト Vol. 56, 12月号, pp. 16–22 (2018)
  5. 石原 一
    「ナノ構造系の光学応答」
    チュートリアル論文 第29回光物性研究会論文集, pp. 1–8 (2018).
  6. 石原 一
    日本物理学会HP「お知らせ一覧」
    ノーベル物理学賞受賞解説記事 2018年10月2日.


2017

    Original papers and Conference proceedings


  1. Synchronization Dynamics in a Designed Open System
    N. Yokoshi, K. Odagiri, A. Ishikawa, and H. Ishihara
    Physical Review Letters Vol. 118, p. 203601 (2017)
    doi:10.1103/PhysRevLett.118.203601


  2. Design of nonlinear optical response of multipole-type excitons by film thickness and incident pulse width
    T. Kinoshita and H. Ishihara
    Physical Review B Vol. 95, p. 155418 (2017)
    doi:10.1103/PhysRevB.95.155418


  3. Resonance optical trapping of individual dye-doped polystyrene particles with blue- and red-detuned lasers
    T. Kudo, H. Ishihara, and H. Masuhara
    Optics Express Vol. 25, Iss. 5, pp. 4655–4664 (2017)
    doi:10.1364/OE.25.004655


  4. Weak-Light Nonlinearity Using a Dark State in Coupled Quantum Dots
    N. Yokoshi and H. Ishihara
    Journal of the Physical Society of Japan Vol. 86, p. 083401 (2017)
    doi:10.7566/JPSJ.86.083401


  5. Proposal of highly efficient photoemitter with strong photon-harvesting capability and exciton superradiance
    T. Matsuda and H. Ishihara
    Applied Physics Letters Vol. 111, p. 063108 (2017)
    doi:10.1063/1.4998444



    Interpretive articles, Reviews


  1. T. Yokoyama
    "Topological property of multi-terminal Josephson junction" (only Japanease)
    BUTSURI vol. 72 pp. 402–407 (2017).