主营:文化,实验室仪器,科学仪器,光电产品,电子产品,矿产品,通讯设备,仪器仪表
所在地:
吉林 长春
产品价格:
电议
最小起订:
1
发布时间:
2023-05-30
有效期至:
2023-06-30
型号: | QX-DB-EX | 规格: | 425-1500 nm |
商标: | 一博 | 包装: | 纸箱 |
Incident Angle: | 45� |
短波通二向色镜/分束镜
二向色滤光片作为短波通滤波片,可以****地减少吸收损耗
提供四种尺寸:?1/2英寸、?1英寸、?2英寸或25 mm x 36 mm
750 nm二向色镜只有35 mm x 52 mm一种尺寸可选
硬质膜便于取放和清洁
耐紫外和化学损伤
QXKJ的二向色镜/分光镜根据波长将光束分离透射光谱和反射光谱。短通二向色镜对低于截止波长的光束具有高透性,对高于截止波长的光束具有高反性。我们也提供
我们的二向色镜有多种截止波长可供选择,范围从425到1500 nm,请参考右边的选择指南图示。除了750 nm和1200 nm二向色镜,其他二向色镜在指定波段的**透射率和**反射率分别>85%和>90%(请参考下面的代表曲线)。750 nm和1200 nm二向色镜的详细规格请在文件中查看。这些二向色镜设计用于45�入射,可选四种尺寸: ?1/2英寸、?1英寸、?2英寸和25 mm x 36 mm,但750 nm二向色镜只有35 mm x 52 mm一种尺寸。
如应用标签所述,这些二向色镜光学元件可以合并一束波长(或波长范围)小于截至波长的光束与一束波长(或波长范围)大于截至波长的光束。它们也常用于分离空间重叠的不同颜色的光束。
这些光学元件的一个表面镀有二向色膜,另一个表面镀有增透膜。我们建议根据右上图示的方向使用光学元件。除750 nm之外的所有二向色镜遵循刻字规则:对于圆形光学元件,箭头指向镀增透膜的表面;对于光学元件,刻字的一面镀有二向色膜。对于截至波长为750 nm的光学元件,边缘刻有一个插入符号,**指向增透膜表面。
对于热敏应用,QXKJ也提供
表面质量和耐用性
QXKJ二向色镜/分束镜使用离子束溅射镀膜技术生产,在
Specificationsa | |||
Cutoff Wavelength | 425 nm | ||
Transmission Band (Tabs > 85%, Tavg > 90%) | 380 - 410 nm | ||
Reflection Band (Rabs > 90%, Ravg > 95%) | 440 - 800 nm | ||
Specifications | |||
Type | Shortpass | ||
Cutoff Wavelength | 425 nm | ||
Transmission Banda | 380 - 410 nm | ||
Reflection Bandb | 440 - 800 nm | ||
AR Coating Rangec | 380 - 410 nm | ||
Size | ?1" | ||
Clear Aperture | >?22.86 mm | ||
Thickness | 3.2 mm | ||
Incident Angle | 45� | ||
Surface Quality | 40-20 Scratch-Dig | ||
Transmitted Wavefront Error | <λ/4 @ 633 nm Over Clear Aperture | ||
Substrate Material | UV Fused Silica |
Specificationsa | |||
Cutoff Wavelength | 490 nm | ||
Transmission Band (Tabs > 85%, Tavg > 90%) | 380 - 475 nm | ||
Reflection Band (Rabs > 90%, Ravg > 95%) | 505 - 800 nm | ||
Specifications | |||
Type | Shortpass | ||
Cutoff Wavelength | 490 nm | ||
Transmission Banda | 380 - 475 nm | ||
Reflection Bandb | 505 - 800 nm | ||
AR Coating Rangec | 380 - 475 nm | ||
Size | ?1" | ||
Clear Aperture | >?22.86 mm | ||
Thickness | 3.2 mm | ||
Incident Angle | 45� | ||
Surface Quality | 40-20 Scratch-Dig | ||
Transmitted Wavefront Error | <λ/4 @ 633 nm Over Clear Aperture | ||
Substrate Material | UV Fused Silica |
Specificationsa | |||
Cutoff Wavelength | 505 nm | ||
Transmission Band (Tabs > 85%, Tavg > 90%) | 390 - 490 nm | ||
Reflection Band (Rabs > 90%, Ravg > 95%) | 520 - 800 nm | ||
Specifications | |||
Type | Shortpass | ||
Cutoff Wavelength | 505 nm | ||
Transmission Banda | 390 - 490 nm | ||
Reflection Bandb | 520 - 800 nm | ||
AR Coating Rangec | 390 - 490 nm | ||
Size | ?1" | ||
Clear Aperture | >?22.86 mm | ||
Thickness | 3.2 mm | ||
Incident Angle | 45� | ||
Surface Quality | 40-20 Scratch-Dig | ||
Transmitted Wavefront Error | <λ/4 @ 633 nm Over Clear Aperture | ||
Substrate Material | UV Fused Silica |
Specificationsa | |||
Cutoff Wavelength | 550 nm | ||
Transmission Band (Tabs > 85%, Tavg > 90%) | 390 - 533 nm | ||
Reflection Band (Rabs > 90%, Ravg > 95%) | 565 - 800 nm | ||
Specifications | |||
Type | Shortpass | ||
Cutoff Wavelength | 550 nm | ||
Transmission Banda | 390 - 533 nm | ||
Reflection Bandb | 565 - 800 nm | ||
AR Coating Rangec | 390 - 533 nm | ||
Size | ?1" | ||
Clear Aperture | >?22.86 mm | ||
Thickness | 3.2 mm | ||
Incident Angle | 45� | ||
Surface Quality | 40-20 Scratch-Dig | ||
Transmitted Wavefront Error | <λ/4 @ 633 nm Over Clear Aperture | ||
Substrate Material | UV Fused Silica |
Specificationsa | |||
Cutoff Wavelength | 567 nm | ||
Transmission Band (Tabs > 85%, Tavg > 90%) | 390 - 550 nm | ||
Reflection Band (Rabs > 90%, Ravg > 95%) | 584 - 800 nm | ||
Specifications | |||
Type | Shortpass | ||
Cutoff Wavelength | 567 nm | ||
Transmission Banda | 390 - 550 nm | ||
Reflection Bandb | 584 - 800 nm | ||
AR Coating Rangec | 390 - 550 nm | ||
Size | ?1" | ||
Clear Aperture | >?22.86 mm | ||
Thickness | 3.2 mm | ||
Incident Angle | 45� | ||
Surface Quality | 40-20 Scratch-Dig | ||
Transmitted Wavefront Error | <λ/4 @ 633 nm Over Clear Aperture | ||
Substrate Material | UV Fused Silica |
Specificationsa | |||
Cutoff Wavelength | 605 nm | ||
Transmission Band (Tabs > 85%, Tavg > 90%) | 470 - 590 nm | ||
Reflection Band (Rabs > 90%, Ravg > 95%) | 620 - 800 nm | ||
Specifications | |||
Type | Shortpass | ||
Cutoff Wavelength | 605 nm | ||
Transmission Banda | 470 - 590 nm | ||
Reflection Bandb | 620 - 800 nm | ||
AR Coating Rangec | 470 - 590 nm | ||
Size | ?1" | ||
Clear Aperture | >?22.86 mm | ||
Thickness | 3.2 mm | ||
Incident Angle | 45� | ||
Surface Quality | 40-20 Scratch-Dig | ||
Transmitted Wavefront Error | <λ/4 @ 633 nm Over Clear Aperture | ||
Substrate Material | UV Fused Silica |
Specificationsa | |||
Cutoff Wavelength | 638 nm | ||
Transmission Band (Tabs > 85%, Tavg > 90%) | 580 - *** nm | ||
Reflection Band (Rabs > 90%, Ravg > 95%) | 655 - 800 nm | ||
Specifications | |||
Type | Shortpass | ||
Cutoff Wavelength | 638 nm | ||
Transmission Banda | 580 - *** nm | ||
Reflection Bandb | 655 - 800 nm | ||
AR Coating Rangec | 580 - *** nm | ||
Size | ?1" | ||
Clear Aperture | >?22.86 mm | ||
Thickness | 3.2 mm | ||
Incident Angle | 45� | ||
Surface Quality | 40-20 Scratch-Dig | ||
Transmitted Wavefront Error | <λ/4 @ 633 nm Over Clear Aperture | ||
Substrate Material | UV Fused Silica |
Specificationsa | |||
Cutoff Wavelength | 650 nm | ||
Transmission Band (Tabs > 85%, Tavg > 90%) | 400 - 633 nm | ||
Reflection Band (Rabs > 90%, Ravg > 95%) | 685 - 1600 nm | ||
Specifications | |||
Type | Shortpass | ||
Cutoff Wavelength | 650 nm | ||
Transmission Banda | 400 - 633 nm | ||
Reflection Bandb | 685 - 1600 nm | ||
AR Coating Rangec | 400 - 633 nm | ||
Size | ?1" | ||
Clear Aperture | >?22.86 mm | ||
Thickness | 3.2 mm | ||
Incident Angle | 45� | ||
Surface Quality | 40-20 Scratch-Dig | ||
Transmitted Wavefront Error | <λ/4 @ 633 nm Over Clear Aperture | ||
Substrate Material | UV Fused Silica |
短波通二向色镜/分束器:截止波长805 nm
短波通二向色镜/分束器:截止波长950 nm
短波通二向色镜/分束器:截止波长1000 nm
短波通二向色镜/分束器:截止波长1180 nm
短波通二向色镜/分束器:截止波长1200 nm
短波通二向色镜/分束器:截止波长1500 nm