然而,如上文所讨论,二向色滤光片106被构造成反射由波长转换元件110所生成的波长的光。
The dichroic filter 106, however, as discussed above, is configured to reflect the wavelengths of light generated by the wavelength converting element 110.
因此,反向发射的光被二向色滤光片106朝向波长转换元件110反射。
Thus, back emitted light is reflected by the dichroic filter 106 towards wavelength converting element 110.
或者,二向色滤光片可在波长转换元件110上使用以将所透射的泵浦光反向反射到波长转换元件110内用于二次传递。
Alternatively, a dichroic filter may be used over the wavelength converting element 110 to reflect the transmitted pump light back into the wavelength converting element 110 for a second pass.
应了解波长转换元件110所发射的光的大部分将被反向导向到二向色滤光片106。
It should be understood that a large portion of the light emitted by the wavelength converting element 110 will be directed back to the dichroic filter 106.
第二二向色滤光片408也可反射从第二波长转换元件412所发射的光,例如,绿光或红光。
The second dichroic filter 408 May also reflect light emitted from the second wavelength converting element 412, e. g., green or red light.
使用第二收集光学器件406来减小穿过波长转换元件110传递的光的锥角改进了第二二向色滤光片408的性能。
The use of the second collection optic 406 to reduce the cone Angle of the light that passes through the wavelength converting element 110 improves the performance of the second dichroic filter 408.
通过透镜、二向分光镜、窄带滤光片、光电转换器件实现了两路光信号的传输采集和转换。
Two-way light signals were transmitted, collected and converted by using lens, beam splitters, narrowband filters and photo-detectors.
其中,光学接收系统主要包括光学接收镜头、调制盘、截止滤光片、窄带干涉滤光片、聚焦透镜及光电转换系统等;
In detail, the optical receiving system is mainly composed of optical receiving lens, modulating disk, cut off filter, focusing lens and pyroelectric detector.
如上文所讨论的那样,二向色滤光片106传递泵浦光并反射波长转换元件110所发射的光。
As discussed above, the dichroic filter 106 passes the pump light and reflects light emitted by the wavelength converting element 110.
如上文所讨论的那样,二向色滤光片106传递泵浦光并反射波长转换元件110所发射的光。
As discussed above, the dichroic filter 106 passes the pump light and reflects light emitted by the wavelength converting element 110.
应用推荐