Rchr
J-GLOBAL ID:202101003871493971   Update date: Apr. 27, 2024

FUJIKAWA Chiemi

FUJIKAWA Chiemi
Research theme for competitive and other funds  (11):
  • 2022 - 2025 アライメントフリーなシリコン光チップとファイバ間の高効率結合デバイス
  • 2020 - 2022 次世代マルチコアファイバとシリコン光チップとの高効率光結合を実現する光硬化樹脂デバイス
  • 2017 - 2020 立体像の側面から背面まで全周観察可能な高臨場感3D動画表示方式の研究
  • 2015 - 2019 Optical oupling device for realizing optical wiring using of UV-curable resin
  • 2012 - 2015 Development of novel projection system that offers vivid image in a bright room
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Papers (68):
  • Yoshiki Kamiura, Taiga Kurisawa, Chiemi Fujikawa, Osamu Mikami. Polymer tapered pillar grown directly from an SMF core enables high efficiency optical coupling with a silicon photonics chip. Optics Letters. 2023. 48. 7. 1670-1670
  • Yoshiki Kamiura, Taiga Kurisawa, Chiemi Fujikawa, Osamu Mikami. Polymer spot size converter on silicon photonics chip for enabling high coupling to single-mode fiber. Optics Letters. 2023. 48. 4. 996-999
  • Karin Wakatsuki, Chiemi Fujikawa, Makoto Omodani. Improvement of Visible Region in Volumetric 3D Display Using a Rotating Helical Screen. The Journal of The Institute of Image Information and Television Engineers. 2023. 77. 1. 129-134
  • Taiga Kurisawa, Yoshiki Kamiura, Chiemi Fujikawa, Osamu Mikami. Polymer tapered pillar on a fiber end fabricated by UV irradiation using a high-NA fiber. Photonics Letters of Poland. 2022. 14. 4. 80-82
  • Karin Wakatsuki, Chiemi Fujikawa, Makoto Omodani. Dependence of 3D Image Contrast on Ceiling/Background Illumination and Screen Reflectance in a Volumetric Display using a Helical Rotating Screen. Proceedings of the International Display Workshops Volume 29 (IDW '22). 2022
more...
MISC (6):
  • 若月花梨, 藤川知栄美, 面谷信. 鏡像螺旋型回転スクリーンを用いた体積型立体表示方式の可視領域の拡大. 映像情報メディア学会技術報告 立体メディア技術. 2023. 47. 10
  • Fujikawa Chiemi. Course of Electrical and Electronic Electronic Engineering, Graduate School of Engineering, Tokai University, Department of Information Media and Technology, School of Information Science and Technology, Tokai University. Journal of The Japan Institute of Electronics Packaging. 2022. 25. 7. 709-709
  • Evaluation of Image Visibility under Obstructive Illumination in Volumetric 3D Display Using a Rotating Helical Screen. ITE technical report. 2022. 46. 31. 5-8
  • 藤川知栄美. 【研究室探訪】vol. 28 東海大学 藤川研究室. OplusE. 2022. 44. 4. 422-423
  • Volumetric 3D Imaging by using High-Speed Projection Technologies. 2022. 33. 7. 36-42
more...
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