Naru Yoneda
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Explore the profile of Naru Yoneda including associated specialties, affiliations and a list of published articles.
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16
Citations
14
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Recent Articles
1.
Matsuda S, Shoda M, Yoneda N, Kumar M, Murata T, Muniraj I, et al.
Opt Express
. 2024 Nov;
32(23):42005-42015.
PMID: 39573496
A transport of intensity equation (TIE) based three-dimensional (3D) fluorescence imaging using photon-counting detection was proposed for low light-level bioimaging applications. The number of photons required to achieve the quantitative...
2.
Matsuda S, Yoneda N, Kumar M, Murata T, Matoba O
Opt Express
. 2024 Nov;
32(14):23989-24006.
PMID: 39538851
A three-dimensional (3D) fluorescent imaging method through a scattering medium has been presented. The proposed method combines digital phase conjugate reconstruction of the scattered light wave by the transport of...
3.
Yoneda N, Sakamoto J, Tomoi T, Nemoto T, Tamada Y, Matoba O
J Biomed Opt
. 2024 Nov;
29(11):116002.
PMID: 39512418
Significance: Confocal microscopy is an indispensable tool for biologists to observe samples and is useful for fluorescence imaging of living cells with high spatial resolution. Recently, phase information induced by...
4.
Matsuda S, Shoda M, Yoneda N, Kumar M, Watanabe W, Murata T, et al.
Opt Express
. 2024 Apr;
32(6):10599-10617.
PMID: 38571267
In this paper, we have proposed a method of three-dimensional (3D) fluorescence imaging through a scattering medium. The proposed method combines the numerical digital phase conjugation propagation after measurement of...
5.
Yoneda N, Matoba O, Saita Y, Nomura T
Opt Lett
. 2023 Oct;
48(20):5273-5276.
PMID: 37831845
Optical scanning holography (OSH) can be applied to 3D fluorescent imaging. However, the optical setup for OSH is complicated due to the requirement of a phase shifter, a 2D mechanical...
6.
Yoneda N, Quan X, Matoba O
Opt Lett
. 2023 Feb;
48(3):632-635.
PMID: 36723550
To see through a random light field in real-time, single-shot generalized Hanbury Brown-Twiss experiments using a polarization camera are proposed. The target intensity distribution is obtained from a complex coherence...
7.
Yoneda N, Saita Y, Nomura T
Opt Express
. 2022 Oct;
30(11):18134-18144.
PMID: 36221620
Common-path off-axis single-pixel holographic imaging (COSHI) is proposed to obtain complex amplitude information using an in-line interferometer and a single-pixel (point-like) detector. COSHI is more robust to disturbances such as...
8.
Yoneda N, Kakei S, Komuro K, Onishi A, Saita Y, Nomura T
Appl Opt
. 2021 Oct;
60(28):8802-8808.
PMID: 34613106
Single-shot higher-order transport-of-intensity quantitative phase imaging (SHOT-QPI) is proposed to realize simple, in-line, scanless, and single-shot QPI. However, the light-use efficiency of SHOT-QPI is low because of the use of...
9.
Yoneda N, Sakai T, Nomura T
Appl Opt
. 2021 Oct;
60(24):7500-7501.
PMID: 34613039
In [Appl. Opt.56, 7079 (2017)APOPAI0003-693510.1364/AO.56.007079], an attractive phase unwrapping algorithm based on the transport of intensity equation is proposed. Although the effectiveness is experimentally evaluated, the derivation of the angular...
10.
Yoneda N, Nobukawa T, Morimoto T, Saita Y, Nomura T
Opt Lett
. 2021 Jun;
46(12):2920-2923.
PMID: 34129574
An unconventional angular-multiplexed recording technique is proposed for holographic data storage based on a computer-generated hologram (CGH) technique. While general angular-multiplexed recording techniques require a Mach-Zehnder interferometer to record data...