Your search keyword '"Masanori Takabayashi"' showing total 10 results

1. Numerical simulations on optoelectronic deep neural network hardware based on self-referential holography

Author

Rio Tomioka and Masanori Takabayashi

Subjects

Atomic and Molecular Physics, and Optics

Published

2023

2. Experimental implementation of multiplexing/demultiplexing in digital images using virtual phase conjugation for holographic data storage

Author

Yuta Goto, Masanori Takabayashi, Akihisa Tomita, Atsushi Okamoto, and Kazuhisa Ogawa

Subjects

010302 applied physics, Computer science, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Holography, Holographic data storage, 01 natural sciences, Multiplexing, Atomic and Molecular Physics, and Optics, law.invention, 010309 optics, Digital image, Optics, Signal beam, law, 0103 physical sciences, Digital image processing, Phase conjugation, business, Digital holography

Abstract

We experimentally implemented and proved the concept of multiplexing and demultiplexing in digital images using virtual phase conjugation, which was proposed in our previous study. In the experiment, we concluded that two digital images multiplexed in a single signal beam are recorded in a holographic medium, and these images are independently and successfully reproduced. In this method, the digital images are multiplexed by superimposing them on a complex amplitude, and not using volume hologram’s multiplexing. Thus, the exposure amount in the holographic medium is constant regardless of the number of multiplexing of digital images, and the method has great potential for achieving high recording density.

Published

2018

3. Numerical simulations on the focus-shift multiplexing technique for self-referential holographic data storage

Author

Takashi Okamoto, Taisuke Eto, and Masanori Takabayashi

Subjects

010302 applied physics, Imagination, Quantum optics, Spatial light modulator, business.industry, Computer science, media_common.quotation_subject, Holographic data storage, 01 natural sciences, Multiplexing, Atomic and Molecular Physics, and Optics, law.invention, 010309 optics, Lens (optics), Search engine, Optics, law, 0103 physical sciences, Focal length, business, media_common

Abstract

For increasing the data density of holographic data storage (HDS), combining more than two multiplexing techniques is effective. This is also true in self-referential holographic data storage (SR-HDS) that enables holographic recording purely with a single beam. In this paper, a focus-shift multiplexing technique is applied to $$xy$$ -shift multiplexed SR-HDS, the feasibility of which has been shown in our previous work. The focus-shift multiplexing technique enables the multiplexing of datapages by slightly changing the focal length of the objective lens. However, the required focus-shift distance for multiplexing and the implementation method of the focus-shift have not been clarified. First, the focus-shift selectivity is investigated by the numerical simulations. In the case where the focus-shift multiplexing technique is applied to $$xy$$ -shift multiplexed SR-HDS, the inter-page crosstalk properties are clarified to decide the recording layout that can achieve a low-crosstalk readout. Second, the technique of displaying an additional phase pattern onto the spatial light modulator (SLM) is introduced, which is a focus-shift method without any special optical components, such as varifocal lenses. Finally, we investigate the relationship between the accuracy of the focus-shift and the parameters of SLM.

Published

2016

4. Tissue spatial correlation as cancer marker

Author

Gabriel Popescu, Hassaan Majeed, Masanori Takabayashi, and Andre Kajdacsy-Balla

Subjects

Spatial correlation, Computer science, Carcinogenesis, Biopsy, medicine.disease_cause, 01 natural sciences, Correlation, Microscopy, Breast, Diagnosis, Computer-Assisted, Cancer marker, Physics, 0303 health sciences, medicine.diagnostic_test, Fourier Analysis, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Phase imaging, Metric (mathematics), symbols, Female, Algorithms, Tissue biopsy, Paper, medicine.medical_specialty, quantitative phase imaging, Biomedical Engineering, Breast Neoplasms, 010309 optics, Biomaterials, 03 medical and health sciences, symbols.namesake, breast cancer, 0103 physical sciences, Image Interpretation, Computer-Assisted, medicine, Biomarkers, Tumor, Humans, Microscopy, Interference, Spatial analysis, 030304 developmental biology, Models, Statistical, business.industry, Cancer, Reproducibility of Results, Pattern recognition, medicine.disease, Refractometry, Fourier transform, Tissue Array Analysis, biopsy slide diagnosis, Histopathology, Artificial intelligence, business

Abstract

We propose a new intrinsic cancer marker in fixed tissue biopsy slides, which is based on the local spatial autocorrelation length obtained from quantitative phase images. The spatial autocorrelation length in a small region of the tissue phase image is sensitive to the nanoscale cellular morphological alterations and can hence inform on carcinogenesis. Therefore, this metric can potentially be used as an intrinsic cancer marker in histopathology. Typically, these correlation length maps are calculated by computing 2D Fourier transforms over image sub-regions – requiring long computational times. In this paper, we propose a more time efficient method of computing the correlation map and demonstrate its value for diagnosis of benign and malignant breast tissues. Our methodology is based on highly sensitive quantitative phase imaging data obtained by spatial light interference microscopy (SLIM).

Published

2018

5. Dynamically reconfigurable characteristics of a double phase conjugate mirror using Sn2P2S6 crystals and their application to optical inter-satellite communication

Author

Kaori Nishimaki, Masanori Takabayashi, Yoshihisa Takayama, Atsushi Shibukawa, Atsushi Okamoto, and Akihisa Tomita

Subjects

Wavefront, Physics, Nonlinear system, Conjugate beam method, Optics, Signal beam, business.industry, Communications satellite, Phase (waves), Photorefractive effect, business, Communications system, Atomic and Molecular Physics, and Optics

Abstract

A double phase conjugate mirror (DPCM), created by two mutually incoherent beams entering photorefractive nonlinear materials, can generate a phase conjugate beam whose reflectivity may be greater than 100%. Even though the conditions of the incident beams are changed, the DPCM can be dynamically reconfigured by using a Sn2P2S6 crystal with a high response speed. These features of the DPCM are advantageous, particularly in an optical inter-satellite communication system. In particular, use of the phase conjugate beam from the DPCM offers wavefront compensation and amplification in satellite communication. In addition, the dynamically reconfigurable DPCM using a Sn2P2S6 crystal relaxes the acquisition accuracy of the signal beam in the system. In this study, the temporal and spatial operating characteristics of the DPCM using a Sn2P2S6 crystal were first clarified. Next, an inter-satellite system based on the DPCM was proposed, and it was demonstrated that our system significantly improves the tolerance of the acquisition accuracy and tracking time.

Published

2014

6. Spatial resolutions for applying photorefractive polymers to diffractive elements

Author

Atsushi Okamoto, Masatoshi Bunsen, Kazuhiro Harasaka, Shuji Rokutanda, and Masanori Takabayashi

Subjects

Physics, Diffraction, business.industry, Physics::Optics, Nonlinear optics, Bragg's law, Photorefractive effect, Diffraction efficiency, Polarization (waves), Atomic and Molecular Physics, and Optics, Condensed Matter::Soft Condensed Matter, Optics, Spatial frequency, business, Image resolution

Abstract

Spatial resolutions of diffracted beams by photorefractive polymers are investigated in detail for applying the polymers to diffractive optical elements. The coupled wave equations for the four-wave mixing in photorefractive polymers and their solutions by applying the two-beam coupling approximation are derived taking the orientational enhancement effect into consideration. Characteristics of the diffraction efficiency of the polymers for the applied electric field, the incident angles of beams, the incident radiation intensity and the polarization are clarified. Furthermore, resolutions of diffracted images with the polymers are discussed by a numerical analysis from the viewpoint of the Bragg diffraction in a spatial frequency domain. An experiment with the TPD (tetra-phenyl-diphenyldiamine) acrylate based photorefractive polymers and the USAF test target is also performed to measure the spatial resolution of two-dimensional images diffracted by the polymer and to verify the calculated results. It is r...

Published

2009

7. Shift-multiplexed self-referential holographic data storage

Author

Takashi Okamoto, Masanori Takabayashi, Atsushi Okamoto, and Taisuke Eto

Subjects

Physics, Diffraction, 3D optical data storage, business.industry, Fast Fourier transform, Holography, Holographic interferometry, Holographic data storage, Multiplexing, Atomic and Molecular Physics, and Optics, law.invention, Optics, law, Optoelectronics, Electrical and Electronic Engineering, business, Engineering (miscellaneous), Phase modulation

Abstract

The feasibility and the properties of shift-multiplexed self-referential holographic data storage (SR-HDS) were investigated. Although SR-HDS has attractive features as typified by referenceless holographic recording, its multiplexing properties, which are consummately important for holographic data storage, have not been clarified until now. The results of numerical and experimental evaluations of medium shift dependence in SR-HDS clarified that the shift selectivity is almost the same as in collinear holography. Furthermore, 25 datapages were successfully shift-multiplexed with the shift pitch of 8.3 μm by the numerical simulation.

Published

2014

8. Spatial cross modulation method using a random diffuser and phase-only spatial light modulator for constructing arbitrary complex fields

Author

Akihisa Tomita, Atsushi Okamoto, Atsushi Shibukawa, and Masanori Takabayashi

Subjects

Physics, Diffraction, Spatial light modulator, business.industry, Holography, Physics::Optics, Holographic data storage, Diffraction efficiency, Atomic and Molecular Physics, and Optics, law.invention, Optics, law, Spatial frequency, business, Diffraction grating, Diffuser (optics)

Abstract

We propose a spatial cross modulation method using a random diffuser and a phase-only spatial light modulator (SLM), by which arbitrary complex-amplitude fields can be generated with higher spatial resolution and diffraction efficiency than off-axis and double-phase computer-generated holograms. Our method encodes the original complex object as a phase-only diffusion image by scattering the complex object using a random diffuser. In addition, all incoming light to the SLM is consumed for a single diffraction order, making a diffraction efficiency of more than 90% possible. This method can be applied for holographic data storage, three-dimensional displays, and other such applications.

Published

2014

9. Self-referential holography and its applications to data storage and phase-to-intensity conversion

Author

Atsushi Okamoto and Masanori Takabayashi

Subjects

Physics, 3D optical data storage, business.industry, Holography, Information Storage and Retrieval, Physics::Optics, Holographic interferometry, Holographic data storage, Signal, Atomic and Molecular Physics, and Optics, law.invention, Optics, Signal beam, law, Reference beam, Physics::Accelerator Physics, Optoelectronics, Digital holographic microscopy, business

Abstract

Holographic recording methods require the use of a reference beam that is coherent with the signal beam carrying the information to be recorded. In this paper, we propose self-referential holography (SRH) for holographic recording without the use of a reference beam. SRH can realize purely one-beam holographic recording by considering the signal beam itself as the reference beam. The readout process in SRH is based on energy transfer by inter-pixel interference in holographic diffraction, which depends on the spatial phase difference between the recorded phase and the readout phase. The phase-modulated recorded signal is converted into an intensity-modulated beam that can be easily detected using a conventional image sensor. SRH can be used effectively for holographic data storage and phase-to-intensity conversion. (C) 2013 Optical Society of America

Published

2013

10. Holographic diversity interferometry for optical storage

Author

Kunihiro Sato, Akihisa Tomita, Keisuke Kunori, Masanori Takabayashi, and Atsushi Okamoto

Subjects

Physics, business.industry, Holography, Information Storage and Retrieval, Optical Devices, Equipment Design, Optical storage, Interference (wave propagation), Holographic interferometry, Atomic and Molecular Physics, and Optics, law.invention, Equipment Failure Analysis, Interferometry, Optics, law, Electronic speckle pattern interferometry, Computer-Aided Design, Image sensor, business, Digital holography

Abstract

This study proposes holographic diversity interferometry (HDI), a system that combines information from spatially dispersed plural image sensors to reconstruct complex amplitude distributions of light signals. HDI can be used to generate four holographic interference fringes having different phases, thus enabling optical phase detection in a single measurement. Unlike conventional phase-shifting digital holography, this system does not require piezoelectric elements and phase shift arrays. In order to confirm the effectiveness of HDI, we generated optical signals having multilevel phases and amplitudes by using two SLMs and performed an experiment for detection and demodulation with HDI. (C) 2011 Optical Society of America

Published

2011