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    • 1. 发明授权
    • Multi-electrode array for a beam mode fluorescent lamp
    • 用于光束模式荧光灯的多电极阵列
    • US4516057A
    • 1985-05-07
    • US337048
    • 1982-01-04
    • Joseph M. ProudLeslie A. RisebergWojciech W. ByszewskiA. Bowman Budinger
    • Joseph M. ProudLeslie A. RisebergWojciech W. ByszewskiA. Bowman Budinger
    • H01J61/067H01J61/72H05B41/16H05B41/24
    • H01J61/72H01J61/067
    • The lamp shown herein is a beam mode fluorescent lamp for general lighting applications. The lamp comprises a light transmitting envelope, having a phosphor coating in its inner surface, the envelope encloses a thermionic cathode having a number of segments for emitting electrons, a plurality of anodes for accelerating the electrons and forming a corresponding number of electron beams simultaneously in two directions, and a fill material, such as mercury, which emits ultraviolet radiation upon excitation. The multi-electrode array configuration provides an extended region of electron beam excitation and thereby more visible light. A single power source and pair of connecting conductors provide both cathode heating current and electrode potential difference functions. In addition, this configuration provides for a greater and more complete discharge of the volume within the envelope than single electrode elements. The present invention permits a higher operating voltage, lower power density, and a lower operating temperature for the lamp.
    • 本文所示的灯是用于一般照明应用的光束模式荧光灯。 灯包括透光外壳,在其内表面上具有荧光粉涂层,外壳封闭具有多个用于发射电子的段的热离子阴极,用于加速电子并同时形成相应数量的电子束的多个阳极 两个方向,以及诸如汞的填充材料,其在激发时发射紫外线。 多电极阵列配置提供电子束激发的扩展区域,从而提供更可见的光。 单个电源和一对连接导体提供阴极加热电流和电极电位差功能。 此外,该配置提供了比单个电极元件更大且更完整的包络体积的放电。 本发明允许灯的更高的工作电压,更低的功率密度和更低的工作温度。
    • 4. 发明授权
    • Multi-electrode array for a beam mode fluorescent lamp
    • 用于光束模式荧光灯的多电极阵列
    • US4450380A
    • 1984-05-22
    • US336794
    • 1982-01-04
    • Joseph M. ProudLeslie A. RisebergWojciech W. ByszewskiA. Bowman Budinger
    • Joseph M. ProudLeslie A. RisebergWojciech W. ByszewskiA. Bowman Budinger
    • H01J63/08H01J1/62H01J63/04
    • H01J63/08
    • The lamp shown herein is a beam mode fluorescent lamp for general lighting applications. The lamp comprises a light transmitting envelope, having a phosphor coating on its inner surface, the envelope encloses a thermionic cathode having a number of segments for emitting electrons, a plurality of anodes for accelerating the electrons and forming a corresponding number of electron beams, and a fill material, such as mercury, which emits ultraviolet radiation upon excitation. The multi-electrode array configuration provides an extended region of electron beam excitation and thereby more visible light. A single power source and pair of connecting conductors perform both cathode heating current and electrode potential difference functions. In addition, this configuration provides for a greater and more complete discharge of the volume within the envelope than single electrode elements. The present invention permits a higher operating voltage, lower power density and a lower operating temperature for the lamp.
    • 本文所示的灯是用于一般照明应用的光束模式荧光灯。 灯包括透光外壳,在其内表面上具有荧光粉涂层,外壳包围具有多个用于发射电子的段的热离子阴极,用于加速电子并形成相应数量的电子束的多个阳极,以及 诸如汞的填充材料,其在激发时发射紫外线辐射。 多电极阵列配置提供电子束激发的扩展区域,从而提供更可见的光。 单个电源和一对连接导体同时执行阴极加热电流和电极电位差功能。 此外,该配置提供了比单个电极元件更大且更完整的包络体积的放电。 本发明允许灯的工作电压更高,功率密度更低,工作温度更低。
    • 9. 发明授权
    • Optical logic device
    • 光逻辑器件
    • US3984785A
    • 1976-10-05
    • US554252
    • 1975-02-28
    • Leslie A. RisebergAlexander LempickiHarold Samelson
    • Leslie A. RisebergAlexander LempickiHarold Samelson
    • G02F3/00H01S3/102H01S3/10
    • G02F3/00H01S3/1022
    • A optical logic device is described in which binary logic functions are accomplished by use of a laser, such as a dye laser, whose output has a polarization direction which is determinable by the direction of polarization of an input excitation laser pumping pulse. An optical component, such as a birefringent element, establishes a pair of bistable polarization directions representative of the binary logic levels. Bistable polarization operation is achieved by requiring a greater intensity of an input laser pumping signal to establish one polarization direction when compared with the input intensity required to establish the other polarization direction. A Brewster plate may be employed to establish the bistable operation of the laser medium.
    • 描述了一种光学逻辑器件,其中二进制逻辑功能通过使用诸如染料激光器的激光器实现,其输出具有可由输入激励激光泵浦脉冲的偏振方向确定的偏振方向。 诸如双折射元件的光学部件建立了代表二进制逻辑电平的一对双稳态偏振方向。 当与建立另一个极化方向所需的输入强度相比时,通过要求更大强度的输入激光泵浦信号来建立一个偏振方向来实现双稳态偏振操作。 可以使用布鲁斯特板来建立激光介质的双稳态操作。