Current Position: Home » Products » Er:YAG Laser-2940nm-Turning Mirror

Er:YAG Laser-2940nm-Turning Mirror

Current Position: Home » Products » Er:YAG Laser-2940nm-Turning Mirror
Er:YAG Laser-2940nm-Turning Mirror

Our turning mirrors use high-quality substrate materials, including sapphire and Corning 7980 substrates, and use high-reflection (HR) coating technology to provide extremely high reflection efficiency in the operating wavelength range of 355nm~2940nm, high precision Processing effectively reduces light scattering. Within a certain incident angle range, the reflectivity of the HR film layer to natural light or S-polarized light and P-polarized light can be as high as 99.9% or even close to 100%. It has excellent performance and can be applied to various high-precision lasers.

Processing Index

Parallelism
10〞
Perpendicularity
Surface Finish
20-10
Flatnessλ / 8 @ 632 nm
Clear Aperture
> 85% central area
Chamfer0.2mm-0.5mm @ 45°
Dimensional Accuracy± 0.05mm
Thickness/Diameter Tolerance
(0,-0.1)mm
Damage Threshold
>10 J/cm2@ 1064nm 10ns 10 Hz

Product List - Corning 7980 (Material Optional)

ModelSize
Form
Coating
CL-TM20001
∅ = 25.4 mm (-0.1 mm)
t = 3 mm (±0.1 mm)
Front Side (S2)
plane
Rear Side (S1)
plane
Front Side (S2)
HRu(45°,2940nm)>99%
Ru(45°,635-655nm)<20%
CL-TM20002
∅ = 25 mm (-0.1 mm)
t = 3.05 mm (±0.1 mm)
Front Side (S2)
plane
Rear Side (S1)
plane
Front Side (S2)
HRu(45°,2940nm)>99.5%
Ru(45°,635-655nm)>95%

If you are intereted in Er:YAG Laser-2940nm-Turning Mirror, please click the button below to enquire or ask for a samplel.

Related article(s) with Er:YAG Laser-2940nm-Turning Mirror:

There is no related article with this product, please visit our articlespage to find out more.

Related case study with Er:YAG Laser-2940nm-Turning Mirror:

There is no related case study with this product, please visit case studypage to find out more.

Related solution(s) with Er:YAG Laser-2940nm-Turning Mirror:

Related video(s) with Er:YAG Laser-2940nm-Turning Mirror:

There is no related video(s), please visitvideospage to find out more.

Scroll to Top