Yasuhiro Ogasawara scite author profile

Yasuhiro Ogasawara

5Publications

42Citation Statements Received

69Citation Statements Given

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Fuji Xerox (Japan)

Publications

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Design of Dye Concentrations in Azobenzene-Containing Polymer films for Volume Holographic Storage

Minabe

Maruyama

Yasuda

et al. 2004

Jpn. J. Appl. Phys.

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A simple method is proposed for determining the masses of new particles in collider events containing a pair of decay chains (not necessarily identical) of the form Z → Y + 1, Y → X + 2, X → N + 3, where 1,2 and 3 are visible but N is not. Initial study of a possible supersymmetric case suggests that the method can determine the four unknown masses in effectively identical chains with good accuracy from samples of a few tens of events.

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Coaxial holographic data storage without recording the dc components

et al. 2006

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A technique of recovering the data pages from Fourier holograms recorded without the dc components is demonstrated theoretically and experimentally by use of a coaxial holographic storage system. A reconstructed image is obtained by adding a phase-modulated dc component of the signal beam on reading. The bit error rate of the reconstructed image is comparable with that for the hologram recorded with the dc component as well. Since high intensities of the dc components are not recorded in this technique, the dynamic range of the recording media can be saved, which potentially contributes to increasing the number of multiplexed holograms.

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Optical noise reduction by reconstructing positive and negative images from Fourier holograms in coaxial holographic storage systems

et al. 2006

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A technique for reconstructing positive and negative images from an identical intensity-modulated hologram is demonstrated theoretically and experimentally by use of a coaxial holographic storage system. Negative images are obtained by adding a phase-modulated dc component of signal beam on reading. By comparing positive and negative images, the bit error rate (BER) is improved by two orders of magnitude. This technique can reduce optical noise of reconstructed images to attain low BERs.

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Multilayer Holographic Storage Using Coaxial Optical Systems

Minabe¹,

Ogasawara²,

Yasuda³

et al. 2008

jjap

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We develop the derivation we proposed in [37] of the dressing phase of the S-matrix in the AdS/CFT correspondence in the framework of the underlying bare integrable model. We elaborate the configuration of the Bethe roots describing the physical vacuum, which consists of a long Bethe string stretched along the imaginary axis and stacks distributed along the real axis. We determine the distribution of all Bethe roots in the thermodynamic limit. We then directly compute the scattering phase of the fundamental excitations over the physical vacuum and reproduce the BHL/BES dressing phase. JHEP12(2007)044so that it satisfies the crossing symmetry [13] and includes the previously known first two terms [14 -17] which reproduce the semi-classical string spectrum. Subsequently, a systematic way of its determination as the weak coupling expansion was presented [18]: The problem can be rephrased in terms of the cusp anomalous dimension [19] where the transcendentality principle [20], with some empirical rules, fully determines the dressing phase up to an overall multiplicative constant. The constant is readily singled out by comparison with either the perturbative computation [21] or the strong coupling result [12]. Ultimately the weak coupling result is identified with the strong coupling one by a sort of analytic continuation [18,22] and is nicely expressed in a closed integral formula. We call it the BHL/BES dressing phase after the authors of the articles [12,18]. Its properties, such as the pole structure [23] as well as the strong coupling limit [24 -27], have been further studied.Despite the success in the determination, the clear understanding of the scalar factor was still lacking. The above procedures do not explain why the scalar factor should exhibit its particular structure. It is also unsatisfactory that these procedures require some modelspecific computation of the string/gauge theory. Although there are some interesting results explaining part of its structure [23, 28 -30], one would desire a comprehensive explanation.Let us recall here that in the field of integrable models, there are two well-known approaches for the computation of the S-matrices: One is called the factorized bootstrap program or the phenomenological computation [31], the other is called the direct calculation, the microscopic derivation or the Bethe ansatz technique [32 -34].The former approach is to compute the S-matrices as an inverse problem. In twodimensional massive relativistic integrable models, two-body S-matrices of the fundamental particles satisfy the unitarity, the factorizability, and the crossing symmetry. These conditions constrain the form of the S-matrices up to the CDD ambiguity. The ambiguity can be removed by some additional requirements, such as the absence of the poles corresponding to unphysical particles.The latter approach is to compute the S-matrices as a direct problem. For example, in the anti-ferromagnetic Heisenberg spin-chain the physical vacuum is the anti-ferromagnetic state rather than the ferromagnetic ...

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Homodyne readout on dc-removed coaxial holographic data storage

et al. 2009

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Multiplexing characteristics of a dc-removed coaxial holographic storage system were evaluated for what is believed to be the first time. Our dc-removed coaxial system achieved 3.5 times higher raw data density than a conventional coaxial system that involved dc recording. The increase of the data density was due not only to less M/# consumption but also to the effects of signal amplification and noise reduction by use of the positive and negative images reconstructed from the same holograms.

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