査読付き論文 (peer-reviewed papers)

  1. Naru Yoneda, Yusuke Saita, and Takanori Nomura, "Common-path off-axis single-pixel holographic imaging," Opt. Express  30, 18134-18144 (2022).
  2. 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]
  3. 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]
  4. 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).
  5. 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).
  6. Bahram Javidi, …, Takanori Nomura, …, "Roadmap on digital holography,” Opt. Express, 29, 35078-35118 (2021). [invited]
  7. Joseph Rosen, …, Takanori Nomura, …, "Roadmap on Recent Progress in FINCH Technology,” J. Imaging, 7, 197 (2021).
  8. 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).
  9. 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).
  10. 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).
  11. Takafumi Ito, Koshi Komuro, and Takanori Nomura, “Pupil-modulation ghost phase-imaging,” Appl. Opt. 60, 4398-4403 (2021). [selected as an Editor's Picks]
  12. 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).
  13. Naru Yoneda, Yusuke Saita, and Takanori Nomura, "Spatially divided phase-shifting motionless optical scanning holography," OSA Continuum 3,3523-3535 (2020).
  14. John T. Sherican, …, Takanori Nomura, …, “Roadmap on holography,” J. Opt. 22, 123002 (65 pages) (2020).
  15. Hiroaki Goi, Koshi Komuro, and Takanori Nomura, "Deep-learning-based binary hologram," Appl. Opt. 59, 7103-7108 (2020).
  16. 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).
  17. 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).
  18. Naru Yoneda, Yusuke Saita, and Takanori Nomura, "Motionless optical scanning holography," Opt. Lett. 45, 3184-3187 (2020).
  19. 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).
  20. Koshi Komuro, Takanori Nomura, and George Barbastathis, “Deep ghost phase imaging,” Appl. Opt. 59, 3376-3382 (2020). [selected as an Editor's Picks]
  21. Shunsuke Kakei, Koshi Komuro, and Takanori Nomura, "Transport-of-intensity phase imaging with polarization directed flat lenses,” Appl. Opt. 59,2011-2015 (2020).
  22. 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).
  23. 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).
  24. Naru Yoneda, Yusuke Saita, and Takanori Nomura, "Binary computer-generated-hologram-based holographic data storage," Appl. Opt. 58, 3083-3090 (2019).
  25. Koshi Komuro, Kazusa Oe, Yosuke, Tamada, and Takanori Nomura, "Complex amplitude mapping based on adaptive autofocusing algorithm,” Opt. Rev. 26, 342-348 (2019).
  26. Yuya Yamazaki and Takanori Nomura, "Computational ghost imaging with designed low spatial frequency masks,” Appl. Opt. 57, 9375-9380 (2018).
  27. Naru Yoneda, Yusuke Saita, Koshi Komuro, Teruyoshi Nobukawa, and Takanori Nomura, "Transport-of-intensity holographic data storage based on a computer-generated hologram” Appl. Opt. 57, 8836-8840 (2018).
  28. Aina Ikezaki and Takanori Nomura, "Phase-unwrapping-free and iterative reconstruction methods for propagated refractive index tomography,” Jpn. J. Appl. Phys. 57, 09SB03 (2018).
  29. 信川輝吉, 野村孝徳, "計算機合成ホログラムを用いた球面波シフト多重記録ホログラフィックメモリの記録・再生シミュレーションの構築,” 電子情報通信学会論文誌C J101-C, 319-326 (2018).
  30. Kazusa Oe and Takanori Nomura, "Twin-image reduction method using a diffuser for phase imaging in-line digital holography” Appl. Opt. 57, 5652-5656 (2018).
  31. Koshi Komuro, Yuya Yamazaki, and Takanori Nomura, "Transport-of-intensity computational ghost imaging,” Appl. Opt. 57, 4451-4456 (2018).
  32. Teruyoshi Nobukawa, Daisuke Barada, Takanori Nomura, and Takashi Fukuda, "Orthogonal polarization encoding for reduction of interpixel cross talk in holographic data storage," Opt. Express 25, 22425-22439 (2017)
  33. Takahiro Kitazawa and Takanori Nomura, “Refractive index tomography based on optical coherence tomography and tomographic reconstruction algorithm,” Jpn. J. Appl. Phys. 56, 09NB03 (6 pages) (2017).
  34. Teruyoshi Nobukawa and Takanori Nomura, “Correlation-Based Multiplexing of Complex Amplitude Data Pages in a Holographic Storage System Using Digital Holographic Techniques,” Polymers 9, 375 (13 pages) (2017).
  35. Takanori Nomura and Kazuma Shinomura, "Generalized sequential four-step phase-shifting color digital holography," Appl. Opt. 56, 6851-6854 (2017).
  36. Koshi Komuro and Takanori Nomura, "Object plane detection and phase-amplitude imaging based on transport of intensity equation,” Opt. Rev. 24, 626-633 (2017).
  37. Kaho Watanabe and Takanori Nomura, "Spatially incoherent Fourier digital holography by four-step phase-shifting rotational shearing interferometer and its image quality,” Opt. Rev. 24, 351-360 (2017).
  38. Osamu Matoba, Xiangyu Quan, Peng Xia, Yasuhiro Awatsuji, and Takanori Nomura, “Multimodal Imaging Based on Digital Holography,” Proc. IEEE 105, 906-923 (2017).
  39. Teruyoshi Nobukawa and Takanori Nomura, “Shift multiplexing with a spherical wave in holographic data storage based on a computer-generated hologram,” Appl. Opt. 56, F31-F36 (2017).
  40. Teruyoshi Nobukawa and Takanori Nomura, “Digital super-resolution holographic data storage based on Hermitian symmetry for achieving high areal density,” Opt. Express 25, 1326-1338 (2017).
  41. Teruyoshi Nobukawa, Takashi Fukuda, Daisuke Barada, and Takanori Nomura, “Coaxial polarization holographic data recording on a polarization-sensitive medium,” Opt. Lett. 41, 4919-4922 (2016).
  42. Teruyoshi Nobukawa and Takanori Nomura, “Multilevel recording of complex amplitude data pages in a holographic data storage system using digital holography,” Opt. Express 24, 21001-21011 (2016).
  43. Hironobu Shinto, Yusuke Saita, and Takanori Nomura, "Shack–Hartmann wavefront sensor with large dynamic range by adaptive spot search method," Appl. Opt. 55, 5413-5418 (2016).
  44. Koshi Komuro and Takanori Nomura, "Quantitative phase imaging using transport of intensity equation with multiple bandpass filters," Appl. Opt. 55, 5180-5186 (2016).
  45. Bahram Javidi, Artur Carnicer, Masahiro Yamaguchi, Takanori Nomura, Elisabet Pérez-Cabré, María S Millán, Naveen K Nishchal, Roberto Torroba, John Fredy Barrera, Wenqi He, Xiang Peng, Adrian Stern, Yair Rivenson, A Alfalou, C Brosseau, Changliang Guo, John T Sheridan, Guohai Situ, Makoto Naruse, Tsutomu  Matsumoto, Ignasi Juvells, Enrique Tajahuerce,  Jesús Lancis, Wen Chen, Xudong Chen and Pepijn W H Pinkse, Allard P Mosk, and Adam Markman, "Roadmap on optical security,” J. Opt. 18, 083001 (39 pages) (2016).
  46. Teruyoshi Nobukawa and Takanori Nomura, “Linear phase encoding for holographic data storage with a single phase-only spatial light modulator,” Appl. Opt. 55, 2565-2573 (2016).
  47. Takahiko Fukuoka, Yutaka Mori, and Takanori Nomura, "Speckle Reduction by Spatial-Domain Mask in Digital Holography,” J. Disp. Tech. 12, 315-322 (2016).
  48. Yutaka Mori, Takahiko Fukuoka, and Takanori Nomura, “Extended focused imaging in digital holography by spatial-domain mask method,” J. Opt. 17,125706 (8 pages) (2015).
  49. Teruyoshi Nobukawa and Takanori Nomura, “Multilayer recording holographic data storage using a varifocal lens generated with a kinoform,” Opt. Lett. 40, 5419-5422 (2015).
  50. Yutaka Mori and Takanori Nomura, "Speckle reduction in hologram generation based on spherical waves synthesis using low-coherence digital holography,” J. Disp. Tech. 11, 867-872 (2015).
  51. Toshitaka Kobata and Takanori Nomura, “Digital holographic three-dimensional Mueller matrix imaging,” Appl. Opt. 54, 5591-5596 (2015).
  52. Teruyoshi Nobukawa, Yotaro Wani, and Takanori Nomura, “Multiplexed recording with uncorrelated computer-generated reference patterns in coaxial holographic data storage,” Opt. Lett. 40, 2161-2164 (2015).
  53. Yusuke Saita, Hironobu Shinto, and Takanori Nomura, "Holographic Shack–Hartmann wavefront sensor based on the correlation peak displacement detection method for wavefront sensing with large dynamic range," Optica 2, 411-415 (2015).
  54. Kaho Watanabe and Takanori Nomura, "Recording spatially incoherent Fourier hologram using dual channel rotational shearing interferometer," Appl. Opt. 54, A18-A22 (2015). 
  55. Yutaka Mori, Takahiko Fukuoka, and Takanori Nomura, "Speckle reduction in holographic projection by random pixel separation with time multiplexing," Appl. Opt. 53, 8182-8188 (2014).
  56. Yuji Tanaka, Yutaka Mori, and Takanori Nomura, "Single-shot three-dimensional shape measurement by low-coherent optical path difference digital holography," Appl. Opt. 53, G19-G24 (2014).
  57. Yusuke Saita and Takanori Nomura, "Design method of input phase mask to improve light use efficiency and reconstructed image quality for holographic memory," Appl. Opt. 53, 4136-4140 (2014).
  58. Teruyoshi Nobukawa and Takanori Nomura, "Design of high-resolution and multilevel reference pattern for improvement of both light utilization efficiency and signal-to-noise ratio in coaxial holographic data storage," Appl. Opt. 53, 3773-3781 (2014).
  59. Masatoshi Imbe and Takanori Nomura, “Selective calculation for improvement of reconstructed images in single-exposure generalized phase-shifting digital holography,” Opt. Eng. 53, 044102 (7 pages) (2014). 
  60. Kaho Watanabe, Masashi Ohshima, and Takanori Nomura, “Simultaneous measurement of refractive index and thickness distributions using low-coherence digital holography and vertical scanning,” J. Opt. 16, 045403 (8 pages) (2014).
  61. Yutaka Mori and Takanori Nomura, “Shortening method for optical reconstruction distance in digital holographic display with phase hologram,” Opt. Eng. 52, 123101-1-7 (2013).
  62. Teruyoshi Nobukawa and Takanori Nomura, “Coaxial Holographic Memory with Designed Reference Pattern on the Basis of Nyquist Aperture for High Density Recording,” Jpn. J. Appl. Phys. 52, 09LD09 (5pages) (2013). 
  63. Masatoshi Imbe and Takanori Nomura, "Study of reference waves in single-exposure generalized phase-shifting digital holography," Appl. Opt. 52,4097-4102 (2013). 
  64. Yutaka Mori and Takanori Nomura, "Synthesis method from low-coherence digital holograms for improvement of image quality in holographic display," Appl. Opt. 52, 3838-3844 (2013)
  65. Masatoshi Imbe and Takanori Nomura, “Single-exposure phase-shifting digital holography using a random-complex-amplitude encoded reference wave,” Appl. Opt. 52, A161-A166 (2013). 
  66. Yusuke Saita, Takanori Nomura, Eiji Nitanai, and Takuhisa Numata, “Design of Reference Pattern and Input Phase Mask for Coaxial Holographic Memory,” Jpn. J. Appl. Phys. 50, 09ME03 (5 pages) (2011).
  67. Takanori Nomura and Masatoshi Imbe, "Single-exposure phase-shifting digital holography using a random-phase reference wave," Opt. Lett. 35, 2281-2283 (2010) .
  68. Hiroyuki Suzuki, Takanori Nomura, Eiji Nitanai, and Takuhisa Numata, “Dynamic Recording of a Digital Hologram with Single Exposure by a Wave-Splitting Phase-Shifting Method,” Opt. Rev. 17, No. 3, pp. 176-180 (2010).
  69. O. Matoba, T. Nomura, E. Perez-Cabre, M. S. Millan, and B. Javidi, “Optical Techniques for Information Security,” Proc. IEEE, 97, pp. 1128-48 (2009).
  70. Takanori Nomura, Mitsukiyo Okamura, Eiji Nitanai, and Takuhisa Numata, "Image quality improvement of digital holography by superposition of reconstructed images obtained by multiple wavelengths," Appl. Opt. 47, D38-D43 (2008).
  71. Takanori Nomura and Bahram Javidi, "Object recognition by use of polarimetric phase-shifting digital holography," Opt. Lett. 32, pp. 2146-2148 (2007).
  72. Takanori Nomura, Bahram Javidi, Shinji Murata, Eiji Nitanai, and Takuhisa Numata,"Polarization imaging of a three-dimensional object by use of on-axis phase-shifting digital holography," Opt. Lett. 32, No. 5, pp. 481-483 (2007).
  73. B. Javidi, C. M. Do, S. -H. Hong, and T. Nomura,"Multi-Spectral Holographic Three-Dimensional Image Fusion Using Discrete Wavelet Transform," J. Display Technol. 2, No. 4, pp. 411-417 (2006).
  74. Takanori Nomura, Shinji Murata, Eiji Nitanai, and Takuhisa Numata,"Phase shifting digital holography using phase difference of orthogonal polarizations," Appl. Opt. 45, No. 20, pp. 4873-4877 (2006).
  75. Takanori Nomura, Eiji Nitanai, Takuhisa Numata, and Bahram Javidi, "Design of input phase mask for the space bandwidth of the optical encryption system," Opt. Eng. 45, No. 1, 017006 (2006). 
  76. Takanori Nomura, Atsushi Okazaki, Masashi Kameda, Yoshiharu Morimoto, and Bahram Javidi, "Image reconstruction from compressed encrypted digital hologram," Opt. Eng. 44, No. 7, 075801 (2005) .
  77. Takanori Nomura, Kaoru Uota, and Yoshiharu Morimoto, "Hybrid optical encryption of a 3-D object using a digital holographic technique," Opt. Eng. 43, No. 10, pp. 2228-2232 (2004) .
  78. Takanori Nomura, Shunji Mikan, Yoshiharu Morimoto, and Bahram Javidi, "Secure optical data storage with random phase key codes by use of a configuration of a joint transform correlator," Appl. Opt. 42, No. 8, pp. 1508-1514 (2003).
  79. Satoru Yoneyama, Yoshiharu Morimoto, Takanori Nomura, Motoharu Fujigaki, and Ryo Matsui, "Real-time analysis of isochromatics and isoclinics using the phase-shifting method," Exper. Mechan. 43,No.1 pp.83-89 (2003).
  80. Takanori Nomura and Bahram Javidi,"Optical Encryption System with a Binary Key Code," Appl. Opt. 39, No. 26, pp. 4783-4787 (2000).
  81. Bahram Javidi and Takanori Nomura, "Polarization encoding for optical security system," Opt. Eng. 39, No. 9, pp. 2439-2443 (2000).
  82. Takanori Nomura and Bahram Javidi, "Optical encryption using a joint transform correlator architecture," Opt. Eng. 39, No. 9, pp. 2031-2035 (2000).
  83. Bahram Javidi and Takanori Nomura, "Securing information by use of digital holography," Opt. Lett. 25, No. 1, pp. 28-30 (2000).
  84. Takanori Nomura, "Phase-Encoded Joint Transform Correlator to Reduce the Influence of Extraneous Signals," Appl. Opt. 37, No. 17, pp. 3651-3655 (1998).
  85. Takanori Nomura and Masaya Tamaru, "Layered Blind Deconvolution Using Subband Filter Banks," Optical Review 4, No. 1B, pp. 164-166 (1997).
2022/07/05
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