情報フォトニクス研究室

最近の業績のみ掲載しています．詳しい業績記録は以下のリンクからどうぞ．

査読付き論文，国際会議，解説記事，国内口頭発表，書籍・解説

• Journal Papers
• Naru Yoneda, Yusuke Saita, and Takanori Nomura, "Three-dimensional fluorescence imaging through dynamic scattering media by motionless optical scanning holography,” Appl. Phys. Lett. 119, 161101 (2021).
• Bahram Javidi, …, Takanori Nomura, …, "Roadmap on digital holography,” Opt. Express, 29, 35078-35118 (2021). [invited]
• Joseph Rosen, …, Takanori Nomura, …, "Roadmap on Recent Progress in FINCH Technology,” J. Imaging, 7, 197 (2021).
• Naru Yoneda, Shunsuke Kakei, Koshi Komuro, Aoi Onishi, Yusuke Saita, and Takanori Nomura, "Single-shot higher-order transport-of-intensity quantitative phase imaging using deep learning,” Appl. Opt. 60, 8802-8808 (2021).
• Naru Yoneda, Takahiro Sakai, and Takanori Nomura, "Fast and accurate phase-unwrapping algorithm based on the transport of intensity equation: comment,” Appl. Opt. 60, 7500-7501 (2021).
• Naru Yoneda, Teruyoshi Nobukawa, Toshiyuki Morimoto, Yusuke Saita, and Takanori Nomura, "Common-path angular-multiplexing holographic data storage based on computer-generated holography," Opt. Lett. 46, 2920-2923 (2021).
• Takafumi Ito, Koshi Komuro, and Takanori Nomura, “Pupil-modulation ghost phase-imaging,” Appl. Opt. 60, 4398-4403 (2021).
• Naru Yoneda, Aoi Onishi, Yusuke Saita, Koshi Komuro, and Takanori Nomura, "Single-shot higher-order transport-of-intensity quantitative phase imaging based on computer-generated holography," Opt. Express 29, 4783-4801 (2021).
• Naru Yoneda, Yusuke Saita, and Takanori Nomura, "Spatially divided phase-shifting motionless optical scanning holography," OSA Continuum 3, 3523-3535 (2020).
• John T. Sherican, …, Takanori. Nomura, …, “Roadmap on holography,” J. Opt. 22, 123002 2 (65 pages) (2020).
• Hiroaki Goi, Koshi Komuro, and Takanori Nomura, "Deep-learning-based binary hologram," Appl. Opt. 59, 7103-7108 (2020).
• Shota Sakamaki, Naru Yoneda, and Takanori Nomura, "Single-shot in-line Fresnel incoherent holography using a dual-focus checkerboard lens," Appl. Opt. 59, 6612-6618 (2020).
• Yusuke Saita, Aoto Matsumoto, Naru Yoneda, and Takanori Nomura, “Multiplexed recording based on the reference wave correlation for computer-generated holographic data storage,” Opt. Rev. 27, 391-398 (2020).
• Naru Yoneda, Yusuke Saita, and Takanori Nomura, "Motionless optical scanning holography," Opt. Lett. 45, 3184-3187 (2020).
• Naru Yoneda, Yusuke Saita, and Takanori Nomura, "Computer-generated-hologram-based holographic data storage using common-path off-axis digital holography,” Opt. Lett. 45, 2796-2799 (2020).
• Koshi Komuro, Takanori Nomura, and George Barbastathis, “Deep ghost phase imaging,” Appl. Opt. 59, 3376-3382 (2020).
• Shunsuke Kakei, Koshi Komuro, and Takanori Nomura, "Transport-of-intensity phase imaging with polarization directed flat lenses,” Appl. Opt. 59, 2011-2015 (2020).
• Daichi Kishiwaki, Kenichi Nisaka, and Takanori Nomura, "High temporal and spatial resolution single-shot digital holography with Fresnel domain filtering using witch’s hat illumination," Appl. Opt. 59, 694-700 (2020).
• Alok K. Gupta, Areeba Fatima, Naveen K. Nishchal, and Takanori Nomura, "Phase imaging based on modified transport of intensity equation using liquid crystal variable retarder with partial coherent illumination,” Opt. Rev. 27, 142-148 (2020).
• Naru Yoneda, Yusuke Saita, and Takanori Nomura, "Binary computer-generated-hologram-based holographic data storage," Appl. Opt. 58, 3083-3090 (2019).
• Koshi Komuro, Kazusa Oe, Yosuke, Tamada, and Takanori Nomura, "Complex amplitude mapping based on adaptive autofocusing algorithm,” Opt. Rev. 26, 342-348 (2019).

• 国際会議Proceedings
• Takanori Nomura, “Are you happy with quantitative phase imaging?,” Proceeding book of The 10th Japan-Korea Workshopon Digital Holography & Information Photonics (DHIP2020), 14-15 (2020). [plenary]
• Takanori Nomura, Naru Yoneda, and Yusuke Saita, "Single-Shot Phase Imaging Techniques Based on Parallel Optical Information Processing,” Optics & Photonics Taiwan International Conference (OPTIC) (2020). [invited]
• Yuta Takahashi, Yusuke Saita, Naru Yoneda, and Takanori Nomura, “Transport of Intensity Phase Data-Page Acquisition with Polarization Directed Flat Lens in Coaxial Holographic Data Storage,” ISOM ’20 Technical Digest, 69-70 (2020).
• Yusuke Saita, Naru Yoneda,Aoto Matsumoto, and Takanori Nomura, “Phase data acquisition and multiplexing techniques for in-line holographic data storage based on computer-generated holograms,”  ISOM ’20 Technical Digest, 65-66 (2020). [invited]
• Naru Yoneda, Yusuke Saita, and Takanori Nomura, “Evaluation of Spatial Resolution in Motionless Optical Scanning Holography,”  ISOM ’20 Technical Digest, 63-64 (2020).
• Kenya Kawano and Takanori Nomura, “Twin-Image Reduction of Low-Coherence In-Line Digital Holography Using a Diffuser,”  ISOM ’20 Technical Digest, 59-60 (2020).
• Aoi Onishi, Naru Yoneda, Yusuke Saita, and Takanori Nomura, “Single Shot Phase Imaging Based on Higher Order Transport-of-IntensityEquation Using a Computer-Generated Hologram,”  ISOM ’20 Technical Digest, 53-54 (2020).
• Naru Yoneda, Yusuke Saita, and Takanori Nomura, “Imaging through scattering media by motionless optical scanning holography,” OSJ-OSA-OSK Joint Symposia on Optics Program, 15aAJ5 (2020). [General Chair Award of OSJ-OSA-OSK joint symposia]
• Daiki Shimoyama, Yusuke Saita, and Takanori Nomura, “Compressive spectral imaging with a blazed grating to improve the signal-to-noise ratio,” OSJ-OSA-OSK Joint Symposia on Optics Program, 14pBJ4 (2020).
• Takanori Nomura, Naru Yoneda, and Yusuke Saita, "Coaxial holographic memory to increase recording capacity using computer-generated hologram,” International Conference on Optoelectronic and Microelectronic Technology and Application 2020 (OMTA2020) (2020). [invited]
• Ying Sun and Takanori Nomura "Simultaneous measurement of two parameters of the spherical lens by low-coherence interferometry,” Proc. SPIE 11548, Optical Design and Testing X, 1154815 (2020).
• Takanori Nomura, Koshi Komuro, Shunsuke Kakei, Naru Yoneda, Yusuke Saita, "Transport of intensity phase imaging under a low signal-to-noise ratio condition,” Proc. SPIE 11548, Optical Design and Testing X, 1154802 (2020). [invited]
• Naru Yoneda, Shunsuke Kakei,  Koshi Komuro, Aoi Onishi, Yusuke Saita, and Takanori Nomura, "Experimental Evaluation of Single-shot Higher-order Transport-of-intensity Quantitative Phase Imaging Based on Deep Learning,”  OSA-JSAP Joint Symposia, 9p-Z10-5 (2020).
• Takanori Nomura, Koshi Komuro, Naru Yoneda, Shunsuke Kakei, Aoi Onishi, Yusuke Saita, “Phase imaging based on Scan-less transport of intensity equation,”  in SPIE Three-Dimensional Imaging, Visualization, and Display 2020, 11402-17 (2020). [invited]

• 書籍・解説
• 山嵜勇哉, 野村孝徳, “微弱光イメージング,” 光学, 48, No. 6, 237 (2019).
• 野村孝徳, “日本の光学研究とOpitcal Review,” 光学, 48，No. 6, 211 (2019).（巻頭言）
• 信川輝吉, 野村孝徳, “ディジタルホログラム技術を用いたホログラフィックメモリーによる複素振幅データの多値記録,” 光学, 46, No. 6, 245 (2017).
• 早崎芳夫, 野村孝徳, 粟辻安浩, 的場修, 横田正幸, 有本英伸, “ディジタルホログラフィ,” 朝倉書店 (2016).
• Takanori Nomura, “Digital Holographic Encryption in Free Space Optical Technique,” in Roadmap on Optical Security, J. Opt., 18, 083001-6-7 (2016).
• 森裕, 野村孝徳, “ ホログラフィックディスプレイにおけるスペックル低減法,” レーザー研究, 44, pp. 429-433 (2016). 
• 野村孝徳, “ディジタルホログラフィーの高画質化を目指したホログラム合成技術,” 光学, 40, pp. 539-543 (2011).
• Takanori Nomura, “Image Quality Improvement of Digital Holography by Multiple Wavelengths or Multiple Holograms, Holography,” Research and Technologies, Joseph Rosen (Ed.), ISBN: 978-953-307-227-2, pp. 397-406, InTech (2011).