Special Issue on Advanced Emissive Displays
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概要
- 論文の詳細を見る
Currently emissive displays are divided into CRT, Vacuum Fluorescent Displays(VFD), Plasma Displays(PDP), Organic and Inorganic Electroluminescent Displays(ELD), and Field Emission Displays(FED). These displays are used as a direct type only or both direct and projection type. CRTs are used both for a direct type and projection type display. Therefore, CRTs have been recognized as a kind of display from relatively small to large size display. CRTs, however, have the disadvantage of large volume. Therefore, recently ELDs and FEDs have been interested in using for relatively medium size display and PDPs have been focused on covering large size display in place of projection CRTs. From the background described above the research and development on emissive displays have become very active for understanding basic principle, creating new materials, finding new design rules, driving schemes, production processes for achieving high performances including the proposition of the revolutionary displays. Recently, the emissive displays are competing with LCDs for number of audience at the International Conference on Displays. This special issue on Advanced Emissive Displays are edited for providing readers with these recent achievement on the research and development of Emissive Displays. The issue contains 2 invited papers, 5 regular papers and a letter. The first invited paper introduces newly developed stripe phosphor screen type CRTs for computer monitors, and the second invited paper describes new driving scheme for improving the picture quality of PDPs. The first group of the regular papers is devoted to PDPs. First paper analyses the electric field to find the relation between firing voltage and PDP structure. Second paper proposes new PDP structure for improving luminous efficiency. The second group contains one paper and is devoted to CRTs. The paper deals with moire on the CRT screen. The third group is devoted to ELs. First paper of the group studies the microstructural and photoluminescent properties of SrGa_2S_4: Ce^lt3+gt thin film. Second paper investigates CeN instead of CeCl_3 as a starting material to improve luminescent properties of blue emitting phosphor, SrS: Ce. Last one, only letter in the issue, introduces mixed single layered organic EL device with bright white emission. We hope that this issue will contribute to further progress in the research and development of the Emissive Display technologies. We express out sincere appreciation to all authors for their timely submission to paper and to all the following editorial committee members for their devoted efforts:
- 社団法人電子情報通信学会の論文
- 1997-08-25
著者
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Yamaguchi Akio
Hitachi Device Engineering Co. Ltd.
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Uchiike Hajime
Faculty of Engineering of Hiroshima University
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Uchiike Hajime
Faculty Of Engineering Of Hiroshima University:(present Address)sid