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11. 发明授权

US5108183A Interferometer utilizing superfluorescent optical source 失效
标题翻译：干涉仪采用超荧光光源
公开(公告)号：US5108183A
公开(公告)日：1992-04-28
申请号：US565248
申请日：1990-08-09
申请人： John J. Fling , Byoung Y. Kim , Kenneth A. Fesler , Michel J. F. Digonnet , Herbert J. Shaw
发明人： John J. Fling , Byoung Y. Kim , Kenneth A. Fesler , Michel J. F. Digonnet , Herbert J. Shaw
IPC分类号： G01B9/02 , G01C19/72 , G01P3/36 , H01S3/06 , H01S3/07 , H01S3/10
CPC分类号： G01C19/721 , G01P3/36
摘要： An improved broadband light source for a Sagnac interferometer includes a waveguide, such as a fluorescent optical fiber, that is pumped by a pump source with a sufficient intensity to generate temporally incoherent light. The fluorescent optical fiber has first and second ends, one end being an input end of the fiber. The broadband light is provided at an output of the fluorescent optical fiber and is input to the interferometer. In order to prevent laser oscillations between the light source and the interferometer, one end of the fluorescent optical fiber is formed so as to prevent reflections. The light output from the fluorescent fiber to the interferometer comprises only that light that initially propagates toward the output of the optical fiber. In one embodiment of the light source, the pump light from the pump source is coupled into the fluorescent optical fiber in a direction so that it travels away from the output of the fluorescent optical fiber towards the first end. In an alternative embodiment, the fluorescent optical fiber is a doubly clad optical fiber having a first acceptance region and a second acceptance region at the first end. The pump light is introduced into an aperture window between the two acceptance regions so that the pump light can be introduced into the first end at an angle without requiring a reflective surface at the first end.
摘要翻译：用于Sagnac干涉仪的改进的宽带光源包括诸如荧光光纤的波导，其由泵浦源以足够的强度泵浦以产生时间上不相干的光。荧光光纤具有第一和第二端，一端是光纤的输入端。宽带光被提供在荧光光纤的输出处，并被输入到干涉仪。为了防止光源和干涉仪之间的激光振荡，形成荧光光纤的一端以防止反射。从荧光纤维到干涉仪的光输出仅包括最初向光纤的输出传播的光。在光源的一个实施例中，来自泵浦源的泵浦光沿着使得其从荧光光纤的输出朝着第一端行进的方向耦合到荧光光纤中。在替代实施例中，荧光光纤是在第一端具有第一接收区和第二接收区的双包层光纤。泵浦光被引入两个接受区域之间的孔眼窗口中，使得泵浦光可以一角度被引入第一端，而不需要第一端的反射表面。

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