最近の業績のみ掲載しています.詳しい業績記録(和歌山大学着任後)は左のメニューのリンクからどうぞ.
  • Journal Papers (for full list)
    • Naru Yoneda, Yusuke Saita, and Takanori Nomura, "Polarization imaging by use of optical scanning holography," Opt. Rev., https://doi.org/10.1007/s10043-022-00778-5 (2022).
    • Naru Yoneda, Yusuke Saita, and Takanori Nomura, "Common-path off-axis single-pixel holographic imaging," Opt. Express 30,18134-18144 (2022).
    • Yusuke Saita, Naru Yoneda, Aoto Matsumoto, Takanori Nomura, “Enhanced Recording Density via Multilevel Phase Retrieval and Correlation-based Multiplexed Recording in Computer-generated Holographic Data Storage,” ITE Trans. Media Technol. Appl., 10,69-74 (2022). [invited]
    • Yusuke Saita, Daiki Shimoyama, Ryohei Takahashi, and Takanori Nomura, "Single-shot compressive hyperspectral imaging with dispersed and undispersed light using a generally available grating," Appl. Opt. 61, 1106-1111 (2022). [selected as an Editor's Picks]
    • 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).
    • Takanori Nomura, “Single-shot digital holography with no or less prominent twin-images based on random phase modulation,” Asian J. Phys. 30, 1457-1463 (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). [selected as an Editor's Picks]
    • 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).
  • International Conference Papers (for full list)
    • Yusuke Saita, "Single-shot Compressive Spectral Imaging Using Diffracted Waves by Grating," The 13th Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2023), 8-1 (2023). [invited]
    • Takaki Yamamoto, Yusuke Saita, and Takanori Nomura, "Multiplexed Data-Page Acquisition with Spiral Phase in Computer-Generated Holographic Data Storage," The 13th Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2023), P26 (2023).
    • Shogo Matsukawa, Yusuke Saita, and Takanori Nomura, "Experimental Verification of Volume Holographic Video Method Based on Peristrophic Multiplexing," The 13th Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2023), P29 (2023).
    • Xiaosi Hu, Yusuke Saita, and Takanori Nomura, "Enhancing accommodation response for depth-map computer-generated holography using complex loss function," IWH2022&2023, 6p24 (2023). [Best Paper Award]
    • Yusuke Saita, Masamitsu Sugimoto, and Takanori Nomura, "Numerical Demonstration of Edge Detection Using Motionless Optical Scanning Holography," IWH2022&2023, 6b07 (2023).
    • Takanori Nomura, "Reduction of memory usage in lensless photography with an amplitude coded aperture using local shift invariance of a diffraction pattern," Photonics Asia 2023, 12765-1 (2023). [invited]
    • Takanori Nomura, "Reduction of Computer Memory Usage in Lensless Photography With a Random Amplitude Coded Aperture," Optica Imaging Congress, 3D Image Acquisition and Display: Technology, Perception and Applications (3D) DM3A.3.(2023) [invited]
    • Takanori Nomura, "Phase-modulated digital holography: a parallel phase-shifting and single-pixel imaging," the third international computing imaging conference (CITA2023). [Keynote Speech]
    • Takanori Nomura, “Lensless photography with a random mask,” 2022 Fio LS, FTu6D.4 (2022). [invited]
    • Naru Yoneda, Osamu Matoba, Yusuke Saita, and Takanori Nomura, "Recent Progress of Motionless Optical Scanning Holography," JSAP-OPTICA SPP Joint Symposia, 21a-C205-6 (2022). [invited]
    • Junki Toda and Takanori Nomura, “Reduction of Memory Usage by a Point Spread Function Undersampling in Lensless Photography with a Random Amplitude Mask,” ODF’22 Technical Digest, P-Oth-44 (2022).
    • Masamitsu Sugimoto, Naru Yoneda, Yusuke Saita, and Takanori Nomura, “Comparison of Different Scanning Manners in Optical Scanning Holography Based on Compressive Sensing,” ODF’22 Technical Digest, P-Oth-43 (2022).
    • Yusuke Saita, "Single pixel holography technique without mechanical scanning and its improvement,” The 2021 International Conference on Optical Instrument and Technology (OIT2021), OIT100-100 (2022). [invited]
    • Naru Yoneda, Yusuke Saita, and Takanori Nomura, "Evaluation of Axial Resolution in Holographic Data Storage Based on Compressive Sensing,” ODF'20 in 2021 (2021). [Student Poster Award]
  • 書籍・解説
    • 髙橋亮平, 最田裕介, 野村孝徳, 【分光映像法】回折格子の特徴を利用して分光画像の推定精度向上を達成” フォトニクスニュース9,  No. 2, 63 (2023).
    • 最田裕介, “日独若手専門家交流プログラムに参加して” 光学51,  No. 6, 291 (2022).
    • 米田成, 最田裕介, 野村孝徳, “動的散乱体背後のイメージング” 光学, 51,  No. 6, 266 (2022).
    • 野村孝徳, 「光学」やOptical Reviewに原著論文を投稿しよう” 光学, 50,  No. 4, 167 (2021).
    • 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, 48No. 6, 211 (2019).(巻頭言)