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PAPER      69 papers (2020 〜)

Yukitoshi Otani (Prof.), Nathan Hegan (Asoc Prof.), Shuhei Shibata (Ph.D. Researcher)

2022

2021

  1. Yuuki Maeda, Shuhei Shibata, Nathan Hagen, Yukitoshi Otani, "Single-shot 3D profilometry using a color imaging polarimeter,"" Optical Engineering 60, 124115 (2021).
  2. Y. Maeda, S. Shibata, N. Hagen, and Y. Otani, “Single shot 3D profilometry using a full Stokes imaging polarimeter,” Optical Review 28, 425–433 (2021).

2020

  1. Benjamin D. Chrysler, Kazuhiko Oka, Yukitoshi Otani, and Nathan Hagen, “Dynamic calibration for enhancing the stability of a channeled spectropolarimeter,” Applied Optics 59, 9424–9433 (2020).
  2. W. Takano, S. Shibata, N. Hagen, M. Matsuda, and Y. Otani, “Minimizing scattering-induced quantitative phase errors in differential interference contrast microscope measurements,” J. Biomed. Opt. 25, 123703 (2020).
  3. Noel-Ivan Toto-Arellano, Gustavo Gomez Mendez, Amalia Martinez-Garcia, Yukitoshi Otani, David Serrano García, Juan Antonio Rayas, Luis Garcia-Lechuga, "Dynamic parallel phase-shifting electronic speckle pattern interferometer," Applied Optics 59, 8160-8166 (2020).
  4. Gustavo Gomez Mendez, Gustavo Rodriguez-Zurita, Amalia Martinez-Garcia, Yukitoshi Otani, David Serrano García, Luis Garcia, and Noel-Ivan Toto-Arellano, "Phase-stepping through polarizing modulation inelectronic speckle pattern interferometry," Applied Optics 59, 6005-6011 (2020).
  5. Nathan Hagen, "Survey of autonomous gas leak detection and quantification with snapshot infrared spectral imaging," Journal of Optics (accepted) (2020).
  6. Nathan Hagen, Prathan Buranasiri, and Yukitoshi Otani, “Compensating for nonlinear dispersion in channeled spectropolarimetry, Applied Optics 59, 5032-5040 (2020).
  7. Suchandra Banerjee, Russell Chipman and Yukitoshi Otani, "Simultaneous balancing of geometric transformation and linear polarizations over VNIR," Optics Letter 45, 2510-2513 (2020).
  8. Suchandra Banerjee, Russell Chipman, Nathan Hagen, and Yukitoshi Otani, "Native oxide layer effect on polarization cancellation for mirrors over the visible to near-infrared region," Advanced Optical Technologies 9, 1-7 (2020).
  9. Suchandra Banerjee, Russell Chipman, Nathan Hagen, and Yukitoshi Otani, "Broadband achromatic tunable polarization rotator," Optics Communications 454, 124456 (2020)
  10. Yuuki Maeda, Shuhei Shibata, Nathan Hagen, Yukitoshi Otani, "Single shot 3D profilometry by polarization pattern projection," Applied Optics 59, 1654-1659 (2020).

Yoshio Hayasaki (Prof.), Satoshi Hasegawa (Assoc. Prof.), Kota Kumagai (Assist. Prof.)

2022

  1. Satoshi Hasegawa, Masatoshi Fujimoto, Toshihisa Atsumi and Yoshio Hayasaki, “In-process monitoring in laser grooving with line-shaped femtosecond pulses using optical coherence tomography,” Light: Advanced Manufacturing (2022). (accepted)
  2. Honghao Zhang, Satoshi Hasegawa, Haruyoshi Toyoda, Yoshio Hayasaki, “Three-dimensional holographic parallel focusing with feedback control for femtosecond laser processing,” Optics and Lasers in Engineering 151, 106884 (2022).

2021

  1. Kota Kumagai, Shun Miura and Yoshio Hayasaki, "Colour volumetric display based on holographic-laser-excited graphics using drawing space separation," Scientific Reports 11, 22728 (2021).
  2. Kentaro Mori, Yoshio Hayasaki, and Keisuke Araki, “Fundamental-ray aberration analysis of off-axial optical systems: analytical formulae of first-order aberrations,” Applied Optics 60, 9012-9028 (2021).
  3. Takumi Ujiie and Yoshio Hayasaki, “Phase-shifting digital holography with burst imaging method,” Optical Review 28, 538-545 (2021).
  4. Fengyun Zhang, Jin Wang, Xi Wang, Jian Zhang, Yoshio Hayasaki, Dongsik Kim, Shufeng Sun, "Experimental study of nickel-based superalloy IN792 with femtosecond laser drilling method," Optics & Laser Technology 143, 107335 (2021).
  5. Jin Wang, Shufeng Sun, Honghao Zhang, Satoshi Hasegawa, Pingping Wang, Yoshio Hayasaki, "Holographic femtosecond laser parallel processing method based on the fractional Fourier transform," Optics and Lasers in Engineering 146, 106704 (2021).
  6. Satoshi Hasegawa and Yoshio Hayasaki, “Femtosecond laser processing with adaptive optics based on convolutional neural network,” Opt. Lasers Eng. 141, 106563 (2021).
  7. Jin Wang, Yoshio Hayasaki, Fengyun Zhang, Xi Wang, and Shufeng Sun, “Variable scattering dots: Laser processing light guide plate microstructures with arbitrary features and arrangements,” Optics & Laser Technology 136, 106732 (2021).
  8. Hiroyuki Ishigaki, I. Futamura, T. Okada, Takahiro Mamiya, and Yoshio Hayasaki, “Height measurement of solder bumps using two-wavelength parallel four-step phase shifting digital holography,” Applied Optics 60, Issue 10, B8-B13 (2021).

2020

  1. Kota Kumagai, Taisei Chiba, and Yoshio Hayasaki, Volumetric bubble display with gold-nanoparticle-containing glycerin screen," Optics Express 28, Issue 23. pp. 33911-33920 (2020).
  2. Quang Duc Pham and Yoshio Hayasaki, “Low-coherence digital holography with a multi-reflection reference mirror,” Optics Letters 45, Issue 16, pp. 4393-4396 (2020).
  3. Hiroyuki Ishigaki, Takahiro Mamiya, Yoshio Hayasaki, “Digital holography with a set of two close wavelengths for height measurement of solder bumps,” Japanese Journal of Applied Physics 59, SOOE03 (2020).
  4. Honghao Zhang, Satoshi Hasegawa, Hidetomo Takahashi, Haruyoshi Toyoda, Yoshio Hayasaki, “In-system optimization of hologram for high-stability parallel laser processing,” Optics Letters 45, 3344-3347 (2020).
  5. Kentaro Mori, Yoshio Hayasaki, and Keisuke Araki, “Fundamental ray aberration analysis: extension of ray matrix analysis to the 3rd-order region using 4-element fundamental ray vector,” Applied Optics 59, 4466-4477 (2020).
  6. Quang Duc Pham and Yoshio Hayasaki, "Area coding method in frequency comb profilometry fused with optical interferometry for measuring centimeter-depth object with nanometer-accuracy," Optics Letters 45, 4393-4396 (2020).
  7. Yoshio Hayasaki and Ryo Sato, “Single-pixel camera with hole-array disk,” Optical Review 27, 252–257 (2020).

Okihiro Sugihara (Prof.), Keisuke Kondo (Assist. Prof.)

2022

2021

  1. H. Terasawa and O. Sugihara, “Near-Infrared Self-Written Optical Waveguides for Fiber-to-Chip Self-Coupling,” J. Lightwave Technol., 39, 7472-7478 (2021).
  2. K. Horiguchi, T. Iikubo, Y. Hyakutake, S. Kobayashi, and O. Sugihara, ”Launch Light Design for Coupling Loss Measurement Measurement of Step-Index Multimode Fiber Connections”, J. Lightwave Technol. 39, 8, 2505-2513 (2021).
  3. K. Horiguchi, S. Kobayashi, and O. Sugihara, “Calculation model for multimode fiber connection using measured near- and far-field patterns” IEEE Photon. Technol. Lett. 33, 6, 285-288 (2021).

2020

  1. Koji Horiguchi, Yoshitada Beppu, Yoshifumi Hyakutake, and Okihiro Sugihara, "Improvement of transmission characteristics of step-index multimode fibers using variable mode controller," Japanese Journal Applied Physics 59, SOOA02 (2020).

Hirotsugu Yamamoto (Prof.), Masaki Yasugi (Ph.D. Researcher)

2022

  1. Kojiro Matsushita, Masaki Yasugi, Akinori Tsuji, Toyotaro Tokimoto, Hirotsugu Yamamoto “Improvement of apparent resolution by subjective super‐resolution display for aerial display using AIRR,” Optical Review (2022). (https://doi.org/10.1007/s10043-021-00710-3)
  2. Kengo Fujii, Masaki Yasugi, Satoshi Maekawa, Hirotsugu Yamamoto “Aerial imaging steganography method for aerial imaging by retro‐refection with dual acrylic ball,” Optical Review (2022). (https://doi.org/10.1007/s10043-021-00715-y)
  3. Kosuke Inoue, Masaki Yasugi, Hirotsugu Yamamoto, and Nao Ninomiya, “Improvement of the distortion of aerial displays and proposal for utilizing distortion to emulate three-dimensional aerial image,” Optical Review (2022). (https://doi.org/10.1007/s10043-021-00714-z)
  4. Hayato Kikuta, Masaki Yasugi, and Hirotsugu Yamamoto, “Examination of deblur processing according to optical parameters in aerial image,” Optics Continuum, 1, 462-474 (2022).

2021

  1. Kojiro Matsushita, Toyotaro Tokimoto, Akinori Tsuji and Hirotsugu Yamamoto, "High‐speed driving of multi‐color LED panel for subjective super‐resolution display," Optical Review 28, 508–515(2021).
  2. Kengo Fujii, Masaki Yasugi, Satoshi Minamikawa, and Hirotsugu Yamamoto, “Reduction of retro-reflector and expansion of the viewpoint of an aerial image by the use of AIRR with transparent spheres,” OSA Continuum 4, 1207-1214 (2021).
  3. Daiki Nishimura, Masaki Yasugi and Hirotsugu Yamamoto, “Proposal of moire‐free aerial display based on the LED panel and apertured retro‐reflectors,” Optical Review (2021).
  4. Eiji Hase, Yu Tokizane, Masatomo Yamagiwa, Takeo Minamikawa, Hirotsugu Yamamoto, Isao Morohashi and Takeshi Yasui, “Multicascade-linked synthetic-wavelength digital holograpy using a line-by-line spectral-shaped optical frequency comb,” Optics Express 29, 15772-15785 (2021).
  5. Ryota Kakinuma, Norikazu Kawagishi, Masaki Yasugi, and Hirotsugu Yamamoto, “Influence of incident angle, anisotropy, and floating distance on aerial imaging resolution,” OSA Continuum 4, 865-878 (2021).
  6. Hiroshi Haga, Takuya Asai, Shin Takeuchi, Harue Ssaki, and Hirotsugu Yamamoto, “Tactile Touch Display Using Segmented-Electrode Array with Tactile, " S IEICE Transactions on Electronics E104.C, 64-72 (2021).
  7. Takahiko Mizuno, Eiji Hase, Takeo Minamikawa, Yu Tokizane, Ryo Oe, Hidenori Koresawa, Hirotsugu Yamamoto, and Takeshi Yasui, “Full-field fluorescence lifetime dual-comb microscopy using spectral mapping and frequency multiplexing of dual-comb optical beats,” Science Advance 7, eabd2102 (2021).
  8. Kosuke Inoue, Masaki Yasugi, Hirotsugu Yamamoto, and Nao Ninomiya, “Improvement of the distortion of aerial displays and proposal for utilizing distortion to emulate three-dimensional aerial image,” Optical Review (2021).(accepted)(collaboration with Yamamoto lab. and Ninomiya Lab.)

2020

  1. Masaki Yasugi and Hirotsugu Yamamoto, “Triple-views aerial display to show different floating images for surrounding directions,” Optics Express 28, 35540-35547 (2020).
  2. Norikazu Kawagishi, Ryota Kaninuma and Hirotsugu Yamamoto, “Aerial image resolution measurement based on the slanted knife edge method,” Optics Express 28, 35518-35527 (2020).
  3. Bahram Javidi, Artur Carnicer, Jun Arai, Toshiaki Fujii, Hong Hua, Hongen Liao, Manuel Martínez-Corral, Filiberto Pla, Adrian Stern, Laura Waller, Qiong-Hua Wang, Gordon Wetzstein, Masahiro Yamaguchi, and Hirotsugu Yamamoto, “Roadmap on 3D integral imaging: sensing, processing, and display,” Optics Express 28, 32266-32293 (2020).
  4. Kazunari Chiba, Masaki Yasugi, and Hirotsugu Yamamoto, “Multiple aerial imaging by use of infinity mirror and oblique retro-reflector,” Japanese Journal of Applied Physics 59, SOOD08 (2020).
  5. Takahiko Mizuno, Takuya Tsuda, Eiji Hase, Yu Tokizane, Ryo Oe, Hidenori Koresawa, Hirotsugu Yamamoto Takeo Minamikawa, and Takeshi Yasui, "Optical image amplification in dual-comb microscopy," Scientific Reports 10, 8338 (2020).

Nao Ninomiya (Assoc. Prof.)

2022

2021

  1. Kosuke Inoue, Masaki Yasugi, Hirotsugu Yamamoto, and Nao Ninomiya, “Improvement of the distortion of aerial displays and proposal for utilizing distortion to emulate three-dimensional aerial image,” Optical Review (2021).(accepted)(collaboration with Yamamoto lab. and Ninomiya Lab.)

2020

Ryushi Fujimura (Assoc. Prof.)

2022

2021

  1. Toshiteru Nakamura and Ryushi Fujimura, “Field of view enlargement with line symmetric image input technique of volumetric hologram waveguide for head mounted displays,” Optical Review 28, 693-703 (2021).
  2. R. Fujimura, "Investigation of Noise Characteristics of Multivalued Signals and Estimation of Single-page Storage Density in Holographic Data Storage," ITE Transactions on Media Technology and Applications 9, 144-152 (2021).[Invited paper]

2020

Kazuma Shinoda (Assoc. Prof.)

2022

2021

  1. Kazuma Shinoda, Kota Yokoyama, and Madoka Hasegawa, "General demosaicking for multispectral polarization filter arrays using total generalized variation and weighted tensor nuclear norm minimization,” Applied Optitcs 60, 5967-5976 (2021).

2020

  1. Kazuma Shinoda and Yasuo Ohtera, "Alignment-free filter array: Snapshot multispectral polarization imaging based on a Voronoi-like random photonic crystal filter," Opt. Express 28, 26, 38867-38882 (2020).
  2. Yasuo Ohtera, Nao Ikeda, Tomohisa Takaya, Kazuma Shinoda, "Direct estimation of NIR reflection spectra utilizing snapshot-type spectrometer with photonic crystal multi-spectral filter array," Applied Optics 59, 5216-5225 (2020).
  3. Kazuma Shinoda, Naotake Konno, Tomohiro Suzuki, “Non-destructive analysis of the moisture content in shiitake mushrooms (Lentinula edodes) using near-infrared imaging at 1450 nm,” Mycoscience 61, 5, 235-239 (2020).

Yosuke Tamada (Assoc. Prof.)

2022

  1. Nan Gu, Chunli Chen, Yukiko Kabeya, Mitsuyasu Hasebe, Yosuke Tamada, “Topoisomerase 1α is required for synchronous spermatogenesis in Physcomitrium patens,” New Phytologist 234, 137-148 (2022).

2021

  1. Lanlan Zheng, Chao Zhou, Tonghui Li, Zhu Yuan, Hanlin Zhou, Yosuke Tamada, Yongheng Zhao, Jing Wang, Qian Zheng, Xincai Hao, Ping Huang, Xiangyin Luo, Xiao Xiao, Lei You, Qinhua Chen, Zhubing Hu, Xuanbin Wang, Kun Meng, Guodong Wang, Yonghong Zhang, Chen Li, “Global transcriptome analysis reveals dynamic gene expression profiling and provides insights into biosynthesis of resveratrol and anthraquinones in a medicinal plant Polygonum cuspidatum,” Industrial Crops and Products 171, 113919 (2021).
  2. Lanlan Zheng, Chen Li, Xueping Ma, Hanlin Zhou, Yuan Liu, Ping Wang, Huilan Yang, Yosuke Tamada, Ji Huang, Chunfei Wang, Zhubing Hu, Xuening Wang, Guodong Wang, Haihong Li, Juntao Hu, Xiaoyun Liu, Chao Zhou and Yonghong Zhang, “Functional interplay of histone lysine 2-hydroxyisobutyrylation and acetylation in Arabidopsis under dark-induced starvation,” Nucleic Acid Research 49, 7347–7360 (2021).
  3. Sudheesh K Rajput, Osamu Matoba, Member, IEEE, Manoj Kumar, Xiangyu Quan, Yasuhiro Awatsuji, Yosuke Tamada, Enrique Tajahuerce, “Multi-physical parameter cross-sectional imaging of quantitative phase and fluorescence by integrated multimodal microscopy,” IEEE Journal of Selected Topics in Quantum Electronics, online ahead of print (2021).
  4. Xiangyu Quan, Manoj Kumar, Sudheesh K Rajput, Yosuke Tamada, Yasuhiro Awatsuji, Osamu Matoba, “Multimodal microscopy: Fast acquisition of quantitative phase and fluorescence imaging in 3D space,” IEEE Journal of Selected Topics in Quantum Electronics 27, 6800911 (2021).

2020

  1. Manoj Kumar, Osamu Matoba, Xiangyu Quan, Sudheesh K Rajput, Yasuhiro Awatsuji, Yosuke Tamada, “Single-shot common-path off-axis digital holography: applications in bioimaging and optical metrology,” Applied Optics 60, A195-A204 (2020).
  2. Yusuke Ashida, Yusuke Honma, Noriaki Miura, Takatoshi Shibuya, Hayao Kikuchi, Yosuke Tamada, Yasuhiro Kamei, Atsushi Matsuda, Masayuki Hattori, “Imaging performance of microscopy adaptive-optics system using scene-based wavefront sensing,” Journal of Biomedical Optics 25, 123707 (2020).
  3. Manoj Kumar, Osamu Matoba, Xiangyu Quan, Sudheesh K Rajput, Yasuhiro Awatsuji, Yosuke Tamada, “Single-shot common-path off-axis digital holography: applications in bioimaging and optical metrology,” Applied Optics 60, A195-A204 (2020).
  4. Nan Gu*, Yosuke Tamada*, Akihiro Imai, Gergo Palfalvi, Yukiko Kabeya, Shuji Shigenobu, Masaki Ishikawa, Karel J. Angelis, Chunli Chen, Mitsuyasu Hasebe, *Co-first authorship, “DNA damage triggers reprogramming of differentiated cells into stem cells in Physcomitrella,” Nature Plants s 6, 1098-1105 (2020).
  5. Wataru Watanabe, Ryoji Maruyama, Hidenobu Arimoto, and Yosuke Tamada, “Low-cost multi-modal microscope using Raspberry Pi,” Optik 212, 164713 (2020).
  6. Manoj Kumar, Xiangyu Quan, Yasuhiro Awatsuji, Yosuke Tamada, and Osamu Matoba, “Digital holographic multimodal cross-sectional fluorescence and quantitative phase imaging system,” Scientific Reports 10, 7580 (2020).
  7. Gergo Palfalvi, Thomas Hackl, Niklas Terhoeven, Tomoko F. Shibata, Tomoaki Nishiyama, Markus Ankenbrand, Dirk Becker, Frank Förster, Matthias Freund, Anda Iosip, Ines Kreuzer, Franziska Saul, Chiharu Kamida, Kenji Fukushima, Shuji Shigenobu, Yosuke Tamada, Lubomir Adamec, Yoshikazu Hoshi, Kunihiko Ueda, Traud Winkelmann, Jörg Fuchs, Ingo Schubert, Rainer Schwacke, Khaled Al-Rasheid, Jörg Schultz, Mitsuyasu Hasebe and Rainer Hedrich, “Genomes of the Venus Flytrap and close relatives unveil the roots of plant carnivory,” Current Biology 30, 2312-2320 (2020).
  8. Hiraku Suda, Hiroaki Mano, Masatsugu Toyota, Kenji Fukushima, Tetsuro Mimura, Izuo Tsutsui, Rainer Hedrich, Yosuke Tamada, Mitsuyasu Hasebe, “Calcium dynamics during trap closure visualized in transgenic Venus flytrap,” Nature Plants 6, 1219-1224 (2020). (Cover)