Coherent scattering noise reduction method with wavelength diversity detection for holographic data storage system
A new method, wavelength diversity detection (WDD), for improving signal quality is proposed and its effectiveness is numerically confirmed. We consider that WDD is especially effective for high-capacity systems having low hologram diffraction efficiencies. In such systems, the signal quality is pri...
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| Published in | Japanese Journal of Applied Physics Vol. 56; no. 9S; pp. 9 - 20 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Tokyo
The Japan Society of Applied Physics
01.09.2017
Japanese Journal of Applied Physics |
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| Abstract | A new method, wavelength diversity detection (WDD), for improving signal quality is proposed and its effectiveness is numerically confirmed. We consider that WDD is especially effective for high-capacity systems having low hologram diffraction efficiencies. In such systems, the signal quality is primarily limited by coherent scattering noise; thus, effective improvement of the signal quality under a scattering-limited system is of great interest. WDD utilizes a new degree of freedom, the spectrum width, and scattering by molecules to improve the signal quality of the system. We found that WDD improves the quality by counterbalancing the degradation of the quality due to Bragg mismatch. With WDD, a higher-scattering-coefficient medium can improve the quality. The result provides an interesting insight into the requirements for material characteristics, especially for a large-M/# material. In general, a larger-M/# material contains more molecules; thus, the system is subject to more scattering, which actually improves the quality with WDD. We propose a pathway for a future holographic data storage system (HDSS) using WDD, which can record a larger amount of data than a conventional HDSS. |
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| AbstractList | A new method, wavelength diversity detection (WDD), for improving signal quality is proposed and its effectiveness is numerically confirmed. We consider that WDD is especially effective for high-capacity systems having low hologram diffraction efficiencies. In such systems, the signal quality is primarily limited by coherent scattering noise; thus, effective improvement of the signal quality under a scattering-limited system is of great interest. WDD utilizes a new degree of freedom, the spectrum width, and scattering by molecules to improve the signal quality of the system. We found that WDD improves the quality by counterbalancing the degradation of the quality due to Bragg mismatch. With WDD, a higher-scattering-coefficient medium can improve the quality. The result provides an interesting insight into the requirements for material characteristics, especially for a large-M/# material. In general, a larger-M/# material contains more molecules; thus, the system is subject to more scattering, which actually improves the quality with WDD. We propose a pathway for a future holographic data storage system (HDSS) using WDD, which can record a larger amount of data than a conventional HDSS. |
| Author | Nakamura, Yusuke Hoshizawa, Taku Takashima, Yuzuru |
| Author_xml | – sequence: 1 givenname: Yusuke surname: Nakamura fullname: Nakamura, Yusuke email: yusuke.nakamura.yz@hitachi.com organization: Hitachi, Ltd. Center for Technology Innovation - Electronics, Yokohama 244-0817, Japan – sequence: 2 givenname: Taku surname: Hoshizawa fullname: Hoshizawa, Taku organization: Hitachi, Ltd. Center for Technology Innovation - Electronics, Yokohama 244-0817, Japan – sequence: 3 givenname: Yuzuru surname: Takashima fullname: Takashima, Yuzuru organization: University of Arizona College of Optical Sciences, Tucson, AZ 85721, U.S.A |
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| References | 26 28 29 Nakamura Y. (24) 2015 Hörmann W. (21) 2013 Nakamura Y. (22) Nakamura Y. (10) 2016; 55 Hoskins A. (7) 2008; 47 Kinoshita N. (27) 2011; 50 30 Goodman J. W. (11) 2000 12 14 15 Choi Y. D. (1) 16 17 18 Lambourdiere S. R. (25) 2006; 45 Goodman J. W. (13) 2006 3 Siegel R. (19) 2002 4 5 6 Gantz J. (2) 2012 8 9 20 Nakamura Y. (23) 2012 |
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| Snippet | A new method, wavelength diversity detection (WDD), for improving signal quality is proposed and its effectiveness is numerically confirmed. We consider that... |
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| SubjectTerms | Coherent scattering Data storage Mathematical analysis Molecular chains Noise reduction Quality Signal quality System effectiveness |
| Title | Coherent scattering noise reduction method with wavelength diversity detection for holographic data storage system |
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