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Development of field emission displays
Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures Processing, Measurement, and Phenomena, 2004Field emission displays (FED) are drawing attention as one of the most promising flat panel displays. Currently, the development stage of Spindt-type FEDs with Mo emitter is close to an end. The monocolor Spindt-type FEDs are being supplied to the market, and the color FEDs are ready for mass production.
S. Itoh, M. Tanaka, T. Tonegawa
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Conference Proceedings. LEOS'98. 11th Annual Meeting. IEEE Lasers and Electro-Optics Society 1998 Annual Meeting (Cat. No.98CH36243), 2002
After briefly describing basic display structure, operation, and challenges, this talk will explore how well actual display cathode performance is predicted by traditional Fowler-Nordheim theory.
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After briefly describing basic display structure, operation, and challenges, this talk will explore how well actual display cathode performance is predicted by traditional Fowler-Nordheim theory.
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Development of field‐emission displays
Journal of the Society for Information Display, 2007Abstract— FEDs are one of the attractive flat‐panel displays that realize high‐quality motion images and low power consumption. FEDs are constructed by using three elemental technologies: micro‐ or nano‐fabrication technology of emitters, opto‐electronic semiconductor technology of anode patterns, and vacuum packaging technology.
Shigeo Itoh +19 more
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Physics World, 1997
Where would we be without the cathode-ray tube? It is cheap to make, it dominates today's display technology and it can be found behind the screen of almost all modern desktop computers. For decades this descendant of the 19th-century vacuum tube faced no serious competition.
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Where would we be without the cathode-ray tube? It is cheap to make, it dominates today's display technology and it can be found behind the screen of almost all modern desktop computers. For decades this descendant of the 19th-century vacuum tube faced no serious competition.
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Reflective–emissive photoluminescent cholesteric liquid crystal display
Applied Optics, 2013We fabricated a photoluminescent cholesteric liquid crystal (PL-CLC) cell for a display application that can be used to display high-quality moving pictures under all ambient conditions including dark and sunlit conditions. The PL-CLC cell is switchable between the reflective mode under bright conditions and the emissive mode in the dark. The effective
Jang-Kyum, Kim +2 more
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Display of positron emission tomography with Cadplan
Australasian Physics & Engineering Sciences in Medicine, 2002Recent clinical experience at Peter MacCallum Cancer Institute (PMCI) with the use of unregistered Positron Emission Tomography (PET) images for radiotherapy target marking in the lung suggests that co-registered PET images would be invaluable. PMCI has three radiotherapy treatment planning systems but none of them currently is able to display or co ...
T, Ackerly +10 more
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Flexible, Non-emissive Textile Display
2011This paper describes current progress in the implementation of flexible ubiquitous textile display. We use thermochromic inks and miniature peltier semiconductor elements to create a non-emissive textile display. Here we present some of the initial work into the use of custom made miniature peltier elements. We describe some of the early works into the
Roshan Lalintha Peiris +2 more
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Emerging Self‐Emissive Technologies for Flexible Displays
Advanced Materials, 2019AbstractFeaturing a combination of ultrathin and lightweight properties, excellent mechanical flexibility, low power‐consumption, and widely tunable saturated emission, flexible displays have opened up a new possibility for optoelectronics.
Dongdong Zhang, Tianyu Huang, Lian Duan
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Diamond-Based Field-Emission Displays
MRS Bulletin, 1996Diamond has existed in the natural state for thousands of years. It was mainly used as a jewel for its optical brilliance and for its hardness. In the 1950s methods were developed to fabricate synthetic diamonds commercially. This greatly increased diamond's industrial use, mostly for grinding and lapping applications.
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