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    • 4. 发明申请
    • ABSORPTION SPECTROSCOPY APPARATUS AND METHOD
    • 吸收光谱仪和方法
    • US20080252892A1
    • 2008-10-16
    • US12101557
    • 2008-04-11
    • Martin U. PralleIrina PuscasuPeter Flowers
    • Martin U. PralleIrina PuscasuPeter Flowers
    • G01N21/61
    • G01N21/0303G01N21/031G01N21/05G01N2021/0378G01N2201/0637
    • An absorption spectroscopy apparatus including an elliptical mirror centered on the midpoint between a source/detector and a mirror. The cavity between the elliptical mirror and the source/bolometer and mirror defines an interior volume of a sample cell. Electromagnetic radiation from the source/detector travels along a multi-segment path starting from the source/bolometer toward the elliptical mirror, reflecting off of the elliptical mirror and traveling toward the mirror, reflecting off of the mirror and traveling back toward the elliptical mirror and finally reflecting off the elliptical mirror for a second time and returning toward the source/bolometer. The multiple reflections combined with the focusing effects of the elliptical mirrored surface result in an efficient sampling device. Among other aspects and advantages, the apparatus of the present disclosure is able to use incoherent, non-collimated light sources while maintaining high optical throughput efficiencies.
    • 一种吸收光谱仪,包括以源/检测器和反射镜之间的中点为中心的椭圆镜。 椭圆镜和源/测辐射热计和反射镜之间的空腔限定了样品池的内部体积。 来自/检测器的电磁辐射沿着从光源/测辐射热计朝着椭圆镜开始的多段路径行进,从椭圆镜反射离开并朝向反射镜行进,反射离开反射镜并朝向椭圆镜返回, 终于从椭圆镜反射了第二次,并返回到源头/测辐射热计。 多重反射与椭圆形镜面的聚焦效应相结合形成了一种高效的采样装置。 除了其它方面和优点之外,本公开的装置能够使用非相干的非准直光源,同时保持高的光通量效率。
    • 5. 发明授权
    • Absorption spectroscopy apparatus and method
    • 吸收光谱装置及方法
    • US07777887B2
    • 2010-08-17
    • US12101557
    • 2008-04-11
    • Martin U. PralleIrina PuscasuPeter Flowers
    • Martin U. PralleIrina PuscasuPeter Flowers
    • G01N21/00
    • G01N21/0303G01N21/031G01N21/05G01N2021/0378G01N2201/0637
    • An absorption spectroscopy apparatus including an elliptical mirror centered on the midpoint between a source/detector and a mirror. The cavity between the elliptical mirror and the source/bolometer and mirror defines an interior volume of a sample cell. Electromagnetic radiation from the source/detector travels along a multi-segment path starting from the source/bolometer toward the elliptical mirror, reflecting off of the elliptical mirror and traveling toward the mirror, reflecting off of the mirror and traveling back toward the elliptical mirror and finally reflecting off the elliptical mirror for a second time and returning toward the source/bolometer. The multiple reflections combined with the focusing effects of the elliptical mirrored surface result in an efficient sampling device. Among other aspects and advantages, the apparatus of the present disclosure is able to use incoherent, non-collimated light sources while maintaining high optical throughput efficiencies.
    • 一种吸收光谱仪,包括以源/检测器和反射镜之间的中点为中心的椭圆镜。 椭圆镜和源/测辐射热计和反射镜之间的空腔限定了样品池的内部体积。 来自/检测器的电磁辐射沿着从光源/测辐射热计朝着椭圆镜开始的多段路径行进,从椭圆镜反射离开并朝向反射镜行进,反射离开反射镜并朝向椭圆镜返回, 终于从椭圆镜反射了第二次,并返回到源头/测辐射热计。 多重反射与椭圆形镜面的聚焦效应相结合形成了一种高效的采样装置。 除了其它方面和优点之外,本公开的装置能够使用非相干的非准直光源,同时保持高的光通量效率。
    • 9. 发明申请
    • Laser Processed Photovoltaic Devices and Associated Methods
    • 激光加工光伏器件及相关方法
    • US20140027774A1
    • 2014-01-30
    • US13472075
    • 2012-05-15
    • Xia LiChristopher VineisMartin U. Pralle
    • Xia LiChristopher VineisMartin U. Pralle
    • H01L31/105
    • H01L31/1055H01L31/02363H01L31/0747Y02E10/50
    • Photovoltaic heterojunction devices, combination hetero- homo-junction devices, and associated methods are provided. In one aspect, for example, a photovoltaic device can include a doped semiconductor substrate having a first textured region and a second textured region opposite the first textured region, a first intrinsic semiconductor layer coupled to the first textured region opposite the semiconductor substrate and a second intrinsic semiconductor layer coupled to the second textured region opposite the semiconductor substrate. A first semiconductor layer can be coupled to the first intrinsic semiconductor layer opposite the first textured region, where the first semiconductor layer is doped to an opposite polarity of the doped semiconductor substrate. A second semiconductor layer can be coupled to the second intrinsic semiconductor layer opposite the second textured region, where the second semiconductor layer is doped to a same polarity as the semiconductor substrate but having a higher dopant concentration as the semiconductor substrate.
    • 提供了光伏异质结器件,组合异质结器件和相关方法。 在一个方面,例如,光伏器件可以包括具有第一纹理区域和与第一纹理化区域相对的第二纹理化区域的掺杂半导体衬底,耦合到与半导体衬底相对的第一纹理化区域的第一本征半导体层, 本征半导体层耦合到与半导体衬底相对的第二纹理区域。 第一半导体层可以耦合到与第一纹理化区域相对的第一本征半导体层,其中第一半导体层被掺杂到掺杂半导体衬底的相反极性。 第二半导体层可以耦合到与第二纹理化区域相对的第二本征半导体层,其中第二半导体层被掺杂到与半导体衬底相同的极性,但是具有较高的掺杂剂浓度作为半导体衬底。