Masato TAKIGUCHI, Ph. D.

Top page   Biography   Research   Publication   Conference   Domestic   Others


Publication List

    TAG index    TAG index    TAG index    TAG index    TAG index

    Unpublished / Preprint

  1. Submit soon
    M. Takiguchi, xxx, xxx, xxx, xxx, xxx, xxx, xxx, and xxx
    xxx, xx, xxxx (20xx)
  2. Submit soon
    xxx, xxx, M. Takiguchi, xxx
    xxx, xx, xxxx (20xx)
  3. Submitted
    M. Takiguchi, S. Sasaki, K. Tateno, E. Chen, K. Nozaki, S. Sergent, E. Kuramochi, G. Zhang, A. Shinya, and M. Notomi
    xxx, xx, xxxx (20xx)
  4. Probing the Ginzburg-Landau potential for lasers using higher-order photon correlations
    N. Takemura, M. Takiguchi and M. Notomi
    arXiv:1908.08679
  5. Low- and high- lasers in Class-A limit: photon statistics, linewidth, and the laser-phase transition analogy
    N. Takemura, M. Takiguchi and M. Notomi
    arXiv:1904.01743
  6. All-optical dynamic modulation of spontaneous emission rate in hybrid optomechanical cavity quantum-electrodynamics systems
    F. Tian, H. Sumikura, E. Kuramochi, M. Takiguchi, M. Ono, A. Shinya, and M. Notomi
    arXiv:1901.07691


  7. 2020

  8. Nanowire-based telecom-band light emitting diodes with efficient light extraction
    G. Zhang, D. Gnatek, M. Takiguchi, X. Xu, K. Tateno, S. Sasaki, T. Tawara, and H. Gotoh
    Jpn. J. Appl. Phys., xx, xxxx (2020)
  9. 【Invited】 Nanowire photonics toward wide wavelength range and subwavelength confinement
    M. Notomi, M. Takiguchi, S. Sergent, G. Zhang, and H. Sumikura
    Opt. Mater. Express, 10, 2560 (2020), [Editors' Pick]
  10. Designs toward synchronization of optical limit cycles based on coupled silicon photonic crystal microcavities
    N. Takemura, M. Takiguchi, and M. Notomi
    Opt. Express, 28, 27657 (2020), [arXiv:2005.11127v3], [erratum]
  11. Photon correlation measurements of stochastic limit cycles emerging from high-Q nonlinear silicon photonic crystal microcavities
    N. Takemura, M. Takiguchi, H. Sumiukura, E. Kuramochi, A. Shinya, and M. Notomi
    Phys. Rev. A, 102, 011501(R) (2020), [arXiv:2001.02838v2]
  12. Low-threshold lasing up to 360 K in all-dielectric subwavelength-nanowire nanocavities
    S. Sergent, M. Takiguchi, T. Tsuchizawa, H. Taniyama, and M. Notomi
    ACS Photonics, 7, 1104 (2020)
  13. All-optical InAsP/InP nanowire switches integrated in a Si photonic crystal
    M. Takiguchi, N. Takemura, K. Tateno, K. Nozaki, S. Sasaki, S. Sergent, E. Kuramochi, T. Wasao, A. Yokoo, A. Shinya, and M. Notomi
    ACS Photonics, 7, 1016 (2020), [Supplementary Journal Cover]


  14. 2019

  15. Subliming GaN into ordered nanowire arrays for ultraviolet and visible nanophotonics
    S. Sergent, B. Damilano, S. Vézian, S. Cheno, M. Takiguchi, T. Tsuchizawa, H. Taniyama, and M. Notomi
    ACS Photonics, 6, 3321 (2019)
  16. Mid-infrared lasing of single wurtzite InAs nanowire
    H. Sumikura, G. Zhang, M. Takiguchi, N. Takemura, A. Shinya, H. Gotoh, and M. Notomi
    Nano Lett., 19, 8059 (2019)
  17. Nanowire-induced nanocavities in photonic crystal disks
    S. Sergent, M. Takiguchi, T. Tsuchizawa, H. Taniyama, and M. Notomi
    ACS Photonics, 6, 1132 (2019)
  18. Lasing thresholds and photon statistics in high-β buried multiple quantum well photonic crystal nanocavity lasers
    N. Takemura, M. Takiguchi, E. Kuramochi, A. Shinya, T. Sato, K. Takeda, S. Matsuo, and M. Notomi
    Phys. Rev. A, 99, 053820 (2019)
  19. Telecom-band lasing in single InP/InAs heterostructure nanowires at room temperature
    G. Zhang, M. Takiguchi, K. Tateno, T. Tawara, M. Notomi, and H. Gotoh
    Sci. Adv., 5, eaat8896 (2019), [NTT Press Release]
  20. Wurtzite GaP nanowire grown by using tertiarybutylchloride and used to fabricate solar cell
    K. Tateno, G. Zhang, S. Sasaki, M. Takiguchi, and K. Kumakura
    Jpn. J. Appl. Phys., 58, 015004 (2019)


  21. 2018

  22. Room temperature continuous-wave nanolaser diode utilized by ultrahigh-Q few-cell photonic crystal nanocavities
    E. Kuramochi, H. Duprez, J. Kim, M. Takiguchi, K. Takeda, T. Fujii, K. Nozaki, A. Shinya, H. Sumikura, H. Taniyama, S. Matsuo, and M. Notomi
    Opt. Express, 26, 26598 (2018), [Spotlight on Optics]
  23. Alternating InAsP/InP heterostructure nanowires grown with tertiary-butyl chloride
    K. Tateno, G. Zhang, M. Takiguchi, and H. Gotoh
    Nano Futures, 2, 045006 (2018)
  24. Direct modulation of a single InP/InAs nanowire light emitting diode
    M. Takiguchi, G. Zhang, S. Sasaki, K. Nozaki, E. Chen, K. Tateno, T. Tawara, A. Shinya, H. Gotoh and M. Notomi
    Appl. Phys. Lett., 112, 251106 (2018)


  25. 2017

  26. Nanomanipulating and tuning ultraviolet ZnO-nanowire-induced photonic crystal nanocavities
    S. Sergent, M. Takiguchi, T. Tsuchizawa, A. Yokoo, H. Taniyama, E. Kuramochi, and M. Notomi
    ACS Photonics, 4, 1040 (2017)
  27. Continuous-wave operation and 10-Gb/s direct modulation of InAsP/InP sub-wavelength nanowire laser on silicon photonic crystal
    M. Takiguchi, A. Yokoo, K. Nozaki, M. D. Birowosuto, K. Tateno, G. Zhang, E. Kuramochi, A. Shinya, and M. Notomi
    APL Photonics, 2, 046106 (2017), [arXiv:1612.03952], [NTT Press Release], [AIP Press Release]
  28. Subwavelength Nanowire Lasers on a Silicon Photonic Crystal Operating at Telecom Wavelengths
    A. Yokoo, M. Takiguchi, M. D. Birowosuto, K. Tateno, G. Zhang, E. Kuramochi, A. Shinya, H. Taniyama and M. Notomi († :Equal contribution)
    ACS Photonics, 4, 355 (2017)
  29. Temperature-Dependent Spontaneous Emission of PbS Quantum Dots inside Photonic Nanostructures at Telecommunication Wavelength
    M. D. Birowosuto, M. Takiguchi, A. Olivier, L. Y. M. Tobing, E. Kuramochi, A. Yokoo, W. Hong, and M. Notomi
    Opt. Commun., 383, 555 (2017)


  30. 2016

  31. Optomechanical oscillator pumped and probed by optically two isolated photonic crystal cavity systems
    F. Tian, H. Sumikura, H. Taniyama, M. Takiguchi, and M. Notomi
    Opt. Express, 24, 28039 (2016)
  32. Design of nanowire-induced nanocavities in grooved 1D and 2D SiN photonic crystals for the ultra-violet and visible ranges
    S. Sergent, M. Takiguchi, H. Taniyama, A. Shinya, E. Kuramochi, and M. Notomi
    Opt. Express, 24, 26792 (2016)
  33. Systematic study of thresholdless oscillation in high-β buried multiple-quantum-well photonic crystal nanocavity lasers
    M. Takiguchi, H. Taniyama, H. Sumikura, M. D. Birowosuto, E. Kuramochi, A. Shinya, T. Sato, K. Takeda, S. Matsuo, and M. Notomi
    Opt. Express, 24, 3441 (2016)


  34. 2015

  35. Bridging the Gap Between the Nanometer-Scale Bottom-Up and Micrometer-Scale Top-Down Approaches for Site-Defined InP/InAs Nanowires
    G. Zhang, C. Rainville, A. Salmon, M. Takiguchi, K. Tateno and H. Gotoh
    ACS Nano, 9, 10580 (2015)


  36. 2014

  37. Spontaneous emission inhibition of telecom-band quantum disks inside single nanowire on different substrates
    M. D. Birowosuto, G. Zhang, A. Yokoo, M. Takiguchi, and M. Notomi
    Opt. Express, 22, 11713 (2014), [arXiv:1406.0011]
  38. Movable High-Q Nanoresonators Realized by Semiconductor Nanowires on a Si Photonic Crystal Platform
    M. D. Birowosuto, A. Yokoo, G. Zhang, K. Tateno, E. Kuramochi, H. Taniyama, M. Takiguchi, and M. Notomi
    Nature Mater., 13, 279 (2014), [arXiv:1403.4237], [NTT Press Release], [Reserch Highlight in Nature Photon.]


  39. 2013

  40. Enhanced and suppressed spontaneous emission from a buried heterostructure photonic crystal cavity
    M. Takiguchi, H. Sumikura, M. D. Birowosuto, E. Kuramochi, T. Sato, K. Takeda, S. Matsuo, and M. Notomi
    Appl. Phys. Lett., 103, 091113 (2013)
  41. Carbon nanotube/polymer composite coated tapered fiber for four wave mixing based wavelength conversion
    B. Xu, M. Omura, M. Takiguchi, A. Martinez, T. Ishigure, S. Yamashita, and T. Kuga
    Opt. Express, 21, 3651 (2013)


  42. 2012

  43. Design for ultrahigh-Q position-controlled nanocavities of single semiconductor nanowires in two-dimensional photonic crystals
    M. D. Birowosuto, A. Yokoo, H. Taniyama, E. Kuramochi, M. Takiguchi, and M. Notomi
    J. Appl. Phys., 112, 113106 (2012), [arXiv:1211.3205]


  44. 2011

  45. Saturated absorption spectroscopy of acetylene molecules with an optical nanofiber
    M. Takiguchi, Y. Yoshikawa, T. Yamamoto, K. Nakayama, and T. Kuga
    Opt. lett., 36, 1254 (2011)