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Manipulation of spectral amplitude and phase with plasmonic nano-structures for information storage

Optical storage devices, such as compact disk (CD) and digital versatile disc (DVD), provide us a platform for cheap and compact information storage media. Nowadays, information we obtain every day keeps increasing, and therefore how to increase the storage capacity becomes an important issue. In th... Full description

Journal Title: Frontiers of Optoelectronics 2014, Vol.7(4), pp.437-442
Main Author: Chen, Wei
Other Authors: Wu, Pin , Yang, Kuang-Yu , Tsai, Din
Format: Electronic Article Electronic Article
Language: English
Subjects:
Quelle: Springer Science & Business Media B.V.
ID: ISSN: 2095-2759 ; E-ISSN: 2095-2767 ; DOI: 10.1007/s12200-014-0419-1
Link: http://dx.doi.org/10.1007/s12200-014-0419-1
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recordid: springer_jour10.1007/s12200-014-0419-1
title: Manipulation of spectral amplitude and phase with plasmonic nano-structures for information storage
format: Article
creator:
  • Chen, Wei
  • Wu, Pin
  • Yang, Kuang-Yu
  • Tsai, Din
subjects:
  • surface plasmon
  • data storage
  • localized surface plasmon resonance
  • Fano resonance
ispartof: Frontiers of Optoelectronics, 2014, Vol.7(4), pp.437-442
description: Optical storage devices, such as compact disk (CD) and digital versatile disc (DVD), provide us a platform for cheap and compact information storage media. Nowadays, information we obtain every day keeps increasing, and therefore how to increase the storage capacity becomes an important issue. In this paper, we reported a method for the increase of the capacity of optical storage devices using metallic nano-structures. Metallic nano-structures exhibit strong variations in their reflectance and/or transmittance spectra accompanied with dramatic optical phase modulation due to localized surface plasmon polariton resonances. Two samples were fabricated for the demonstration of storage capacity enhancement through amplitude modulation and phase modulation, respectively. This work is promising for high-density optical storage.
language: eng
source: Springer Science & Business Media B.V.
identifier: ISSN: 2095-2759 ; E-ISSN: 2095-2767 ; DOI: 10.1007/s12200-014-0419-1
fulltext: fulltext
issn:
  • 2095-2767
  • 20952767
  • 2095-2759
  • 20952759
url: Link


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subjectsurface plasmon ; data storage ; localized surface plasmon resonance ; Fano resonance
descriptionOptical storage devices, such as compact disk (CD) and digital versatile disc (DVD), provide us a platform for cheap and compact information storage media. Nowadays, information we obtain every day keeps increasing, and therefore how to increase the storage capacity becomes an important issue. In this paper, we reported a method for the increase of the capacity of optical storage devices using metallic nano-structures. Metallic nano-structures exhibit strong variations in their reflectance and/or transmittance spectra accompanied with dramatic optical phase modulation due to localized surface plasmon polariton resonances. Two samples were fabricated for the demonstration of storage capacity enhancement through amplitude modulation and phase modulation, respectively. This work is promising for high-density optical storage.
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titleManipulation of spectral amplitude and phase with plasmonic nano-structures for information storage
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abstractOptical storage devices, such as compact disk (CD) and digital versatile disc (DVD), provide us a platform for cheap and compact information storage media. Nowadays, information we obtain every day keeps increasing, and therefore how to increase the storage capacity becomes an important issue. In this paper, we reported a method for the increase of the capacity of optical storage devices using metallic nano-structures. Metallic nano-structures exhibit strong variations in their reflectance and/or transmittance spectra accompanied with dramatic optical phase modulation due to localized surface plasmon polariton resonances. Two samples were fabricated for the demonstration of storage capacity enhancement through amplitude modulation and phase modulation, respectively. This work is promising for high-density optical storage.
copHeidelberg
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doi10.1007/s12200-014-0419-1
date2014-12