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    • 61. 发明授权
    • Low-velocity electron excited phosphor and method for producing same
    • 低速电子激发荧光体及其制造方法
    • US5510154A
    • 1996-04-23
    • US160166
    • 1993-12-02
    • Shigeo ItohHitoshi TokiYoshihisa Yonezawa
    • Shigeo ItohHitoshi TokiYoshihisa Yonezawa
    • C09K11/08C23C14/48B05D3/06
    • C23C14/48C09K11/08
    • A low-velocity electron excited phosphor capable of exhibiting increased luminance and a method for producing the same. A matrix crystal for the phosphor is doped therein with an activator at implantation energy of 50 KeV by ion implantation, resulting in the activator entering a portion of the matrix crystal extending to a depth as small as 0.5 .mu.m from a surface thereof. Then, the phosphor is annealed for a reduced period of time as short as 10 seconds at a temperature of 900.degree. C. Such short-time annealing effectively prevents distribution of the activator in the matrix crystal formed during the implantation from being deeply spread into the matrix crystal by thermal diffusion. Thus, the activator concentratedly exists at only a portion of the matrix crystal in proximity to the surface thereof. Thus, the phosphor exhibits increased luminance as compared with a prior art, because luminescence of the phosphor is limited to the portion thereof in proximity to the surface.
    • 能够显示增加的亮度的低速电子激发荧光体及其制造方法。 通过离子注入,用50KV的注入能量在其中掺杂荧光体的矩阵晶体,其中激活剂进入基体晶体的一部分延伸到距其表面0.5μm的深度。 然后,在900℃的温度下,将荧光体退火短时间为10秒的时间。这种短时间退火有效地防止了在植入过程中形成的基体晶体中的活化剂分布深入到 矩阵晶体通过热扩散。 因此,活化剂仅在其表面附近仅存在于基体晶体的一部分。 因此,与现有技术相比,荧光体的亮度增加,因为荧光体的发光被限制在靠近表面的部分。
    • 65. 发明授权
    • Electron feed structure for flat-type luminous device
    • 平面型发光装置的电子馈电结构
    • US5032761A
    • 1991-07-16
    • US500598
    • 1990-03-28
    • Shigeo ItohKazuhiko TsuburayaMikio Yokoyama
    • Shigeo ItohKazuhiko TsuburayaMikio Yokoyama
    • H01J63/06H01J29/62H01J29/74H01J31/12
    • H01J31/124
    • An electron feed structure for a flat-type luminous device capable of permitting electron emitted from an electrons source to be uniformly fed throughout a display section. The electron feed structure includes an electron flow guide constituted by an inner guide electrode of a high voltage and an outer guide electrode of a low voltage, so that an electric field of a high voltage and that of a low voltage may be alternately formed to form electrostatic lenses in the guide, to thereby effectively prevent the function of the electron flow guide from being deteriorated. A guide voltage applied to each of the electrode segments of the inner guide electrode is rendered constant and a guide voltage applied to each of the electrode segments of the outer guide electrode is likewise rendered constant, to thereby cause the correlation between the guide voltage and a deflection voltage applied to the electron flow guide to be uniform irrespective of a position within the electron flow guide, resulting in electrons emitted from the electron source being drawn out under the same conditions.
    • 用于能够允许从电子源发射的电子在整个显示部分均匀地馈送的平面型发光器件的电子馈送结构。 电子馈送结构包括由高电压的内部引导电极和低电压的外部引导电极构成的电子流动引导件,从而可以交替地形成高电压和低电压的电场以形成 引导件中的静电透镜,从而有效地防止电子流动引导件的功能恶化。 施加到内引导电极的每个电极段的引导电压变得恒定,并且施加到外引导电极的每个电极段的引导电压同样地变为恒定,从而导致引导电压和 施加到电子流动引导件的偏转电压与电子流动引导件内的位置无关,导致从电子源发射的电子在相同条件下被抽出。