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    • 7. 发明申请
    • COLOR-MIXING CONVERGENT OPTICAL SYSTEM
    • 彩色混合光学系统
    • US20130258700A1
    • 2013-10-03
    • US13989356
    • 2011-11-17
    • Michael SchuchWolfgang ErnstAlexander Otto
    • Michael SchuchWolfgang ErnstAlexander Otto
    • F21V8/00
    • G02B6/0005G02B6/0006G02B6/0068G02B6/4298G09F9/305
    • Optical systems for focused light emission, which can be used as full color-capable pixels in grid assemblies, such as variable message signs and outdoor electronic display boards. The optical systems may include a light source that is a commercially available full-color LED in SMD design having a red, a green, and a blue LED crystal, which may be disposed at an inlet surface of a light-guiding rod having a constant cross-section and a jacket surface made of planes adjacent to each other at sharp edges. The light-guiding rod thereby captures the light substantially completely and completely mixes the different colors and brightnesses efficiently without scattering. The light output of the light-guiding rod lies at the focus of a convergent lens, which focuses the exiting light.
    • 用于聚焦光发射的光学系统,其可以用作网格组件中的全彩色像素,例如可变消息标志和户外电子显示板。 光学系统可以包括光源,其是具有红色,绿色和蓝色LED晶体的SMD设计的市售全色LED,其可以设置在具有恒定的导光棒的入口表面 横截面和由锐利边缘彼此相邻的平面制成的护套表面。 因此,导光杆基本上完全地捕获光,并且不会飞散地有效地将不同的颜色和亮度完全混合。 导光杆的光输出位于会聚透镜的焦点,聚焦透镜聚焦出射光。
    • 9. 发明授权
    • Processing of (Bi,Pb)SCCO superconductor in wires and tapes
    • (Bi,Pb)SCCO超导体在电线和磁带中的处理
    • US06311386B1
    • 2001-11-06
    • US09358245
    • 1999-07-21
    • Qi LiEric R. PodtburgPatrick John WalshWilliam L. CarterGilbert N. Riley, Jr.Martin W. RupichElliott ThompsonAlexander Otto
    • Qi LiEric R. PodtburgPatrick John WalshWilliam L. CarterGilbert N. Riley, Jr.Martin W. RupichElliott ThompsonAlexander Otto
    • H01L3929
    • C04B35/4521C04B35/4525C04B35/65H01L39/2419H01L39/248Y10S505/739Y10S505/74Y10S505/742Y10T29/49014
    • A novel process of the production and processing of high quality, high Tc (Bi,Pb)SCCO superconductors starts with fabrication of a precursor article including selected intermediate phases with desired chemical and structural properties. The precursor fabrication includes introducing the reacted mixture having a dominant amount of the tetragonal BSCCO phase into a metal sheath, and sealing the reacted mixture within said sheath, heating the mixture at a second selected processing temperature in an inert atmosphere with a second selected oxygen partial pressure for a second selected time period, the second processing temperature and the second oxygen partial pressure being cooperatively selected to form a dominant amount of an orthorhombic BSCCO phase in the reacted mixture. The sealed sheath is deformed to form an elongated precursor article of a desired texture; and thereafter heated at a third selected processing temperature in an inert atmosphere with a third selected oxygen partial pressure for a third selected time period. The third processing temperature and third oxygen partial pressure are cooperatively selected to convert at least a portion of the orthorhombic BSCCO phase to the final superconducting BSCCO material.
    • 高品质,高Tc(Bi,Pb)SCCO超导体的生产和加工的新工艺首先制造包含所需化学和结构性质的选定中间相的前体制品。 前体制备包括将具有显着量的四边形BSCCO相的反应混合物引入金属护套中,并将反应的混合物密封在所述护套内,在第二选择的加工温度下在惰性气氛中加热第二选择的氧部分 第二选择时间段的压力,第二加工温度和第二氧分压协同选择以形成反应混合物中正交BSCCO相的显着量。 密封的鞘被变形以形成具有所需纹理的细长的前体制品; 然后在具有第三选择的氧分压的惰性气氛中在第三选择的处理温度下加热第三选定时间段。 协调选择第三加工温度和第三氧分压以将正交BSCCO相的至少一部分转化为最终超导BSCCO材料。
    • 10. 发明授权
    • Multifilament composite BSCCO oxide superconductor
    • 多丝复合BSCCO氧化物超导体
    • US06194352B1
    • 2001-02-27
    • US08553184
    • 1995-11-07
    • Gilbert N. Riley, Jr.Jeffrey M. SeuntjensWilliam L. BarnesGregory L. SnitchlerAlexander Otto
    • Gilbert N. Riley, Jr.Jeffrey M. SeuntjensWilliam L. BarnesGregory L. SnitchlerAlexander Otto
    • H01B1202
    • H01L39/248H01F6/06H01F41/063H01F41/069Y10S505/74
    • A method for preparing an oxide superconductor cable includes transposing a plurality of oxide superconductor strands along a longitudinal axis so as to form a cable and exposing the cable to a two step heat treatment after cabling of the oxide strands, the heat treatment comprising, (a) heating the cable to and maintaining the cable at a first temperature sufficient to partially melt the article, such that a liquid phase co-exists with the desired oxide superconductor phase; and (b) cooling the cable to and maintaining the cable at a second temperature sufficient to substantially transform the liquid phase into the desired oxide superconductor. The oxide superconductor multistrand cable includes a plurality of oxide superconductor strands, each of the strands including an oxide superconductor having an irreversible melt characteristic, wherein the plurality of oxide strands are transposed about a longitudinal axis, such that each of the strands are substantially electrically and substantially mechanically isolated; and wherein the cable exhibits critical transport properties (Jc) of at least about 10,000 A/cm2 at 77K, self field.
    • 制备氧化物超导体电缆的方法包括沿着纵向轴线转置多个氧化物超导体股线,以形成电缆,并且在电缆穿过氧化物线束之后将电缆暴露于两步热处理,该热处理包括:(a 将电缆加热并将电缆保持在足以部分熔化制品的第一温度,使得液相与期望的氧化物超导体相共存; 和(b)将电缆冷却到并将电缆保持在足以基本上将液相转变成所需氧化物超导体的第二温度。 氧化物超导体多股线缆包括多个氧化物超导体股线,每个股线包括具有不可逆熔融特性的氧化物超导体,其中多个氧化物股线围绕纵向轴线转置,使得每根股线基本上电气和 基本上机械隔离; 并且其中所述电缆在77K处表现出至少约10,000A / cm 2的临界传输特性(Jc)。