Design of an Electrically Written and Optically Read Non-volatile Memory Device Employing BiFeO sub(3)/Au Heterostructures with Strong Absorption Resonance

Exploiting new concepts for dense, fast, and nonvolatile random access memory with reduced energy consumption is a significant issue for information technology. Here we design an 'electrically written and optically read' information storage device employing BiFeO sub(3)/Au heterostructures...

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Veröffentlicht in:	Chinese physics letters 2015-07, Vol.32 (7), p.074204-1-074204-4
Hauptverfasser:	Xiao, Peng-Bo, Zhang, Wei, Qu, Tian-Liang, Huang, Yun, Hu, Shao-Min
Format:	Artikel
Sprache:	eng
Schlagworte:	Absorption Apertures Data storage Devices Heterostructures Information storage Mathematical analysis Nanostructure
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container_title	Chinese physics letters
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creator	Xiao, Peng-Bo Zhang, Wei Qu, Tian-Liang Huang, Yun Hu, Shao-Min
description	Exploiting new concepts for dense, fast, and nonvolatile random access memory with reduced energy consumption is a significant issue for information technology. Here we design an 'electrically written and optically read' information storage device employing BiFeO sub(3)/Au heterostructures with strong absorption resonance. The electro-optic effect is the basis for the device design, which arises from the strong absorption resonance in BiFeO sub(3)/Au heterostructures and the electrically tunable significant birefringence of the BiFeO sub(3) film. We first construct a simulation calculation of the BiFeO sub(3)/Au structure spectrum and identify absorption resonance and electro-optical modulation characteristics. Following a micro scale partition, the surface reflected light intensity of different polarization units is calculated. The results depend on electric polarization states of the BiFeO sub(3) film, thus BiFeO sub(3)/Au heterostructures can essentially be designed as a type of electrically written and optically read information storage device by utilizing the scanning near-field optical microscopy technology based on the conductive silicon cantilever tip with nanofabricated aperture. This work will shed light on information storage technology.
doi_str_mv	10.1088/0256-307X/32/7/074204
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Here we design an 'electrically written and optically read' information storage device employing BiFeO sub(3)/Au heterostructures with strong absorption resonance. The electro-optic effect is the basis for the device design, which arises from the strong absorption resonance in BiFeO sub(3)/Au heterostructures and the electrically tunable significant birefringence of the BiFeO sub(3) film. We first construct a simulation calculation of the BiFeO sub(3)/Au structure spectrum and identify absorption resonance and electro-optical modulation characteristics. Following a micro scale partition, the surface reflected light intensity of different polarization units is calculated. The results depend on electric polarization states of the BiFeO sub(3) film, thus BiFeO sub(3)/Au heterostructures can essentially be designed as a type of electrically written and optically read information storage device by utilizing the scanning near-field optical microscopy technology based on the conductive silicon cantilever tip with nanofabricated aperture. 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The results depend on electric polarization states of the BiFeO sub(3) film, thus BiFeO sub(3)/Au heterostructures can essentially be designed as a type of electrically written and optically read information storage device by utilizing the scanning near-field optical microscopy technology based on the conductive silicon cantilever tip with nanofabricated aperture. This work will shed light on information storage technology.</abstract><doi>10.1088/0256-307X/32/7/074204</doi></addata></record>
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source	IOP Publishing Journals; Institute of Physics (IOP) Journals - HEAL-Link; Alma/SFX Local Collection
subjects	Absorption Apertures Data storage Devices Heterostructures Information storage Mathematical analysis Nanostructure
title	Design of an Electrically Written and Optically Read Non-volatile Memory Device Employing BiFeO sub(3)/Au Heterostructures with Strong Absorption Resonance
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