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Scanning Mirrors for CO2 Lasers


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Specifications:

Surface Figure λ/4 @633nm per 1”Diameter Surface Quality 40/20 S/D
Reflective Coating Silicon, Gold coating for CO2 Laser (10.6μm) Mounted scanning mirror are available upon request.
 

Modules or Types:

Module No. Beam Size (mm) Dimension (LxWxT,mm) Substrate and Coating
SM10.6-8X-18x13x1.2-SJ 8 18x13x1.2 Gold coated Silicon
SM10.6-8Y-22x15x1.2-SJ 8 22x15x1.2 Gold coated Silicon
SM10.6-10X-20x15x1.2-SJ 10 20x15x1.2 Gold coated Silicon
SM10.6-10Y-27.5x17x1.2-SJ 10 27.5x17x1.2 Gold coated Silicon
SM10.6-10X-20.3x13.7x1.5-WT 10 20.3x13.7x1.5 Gold coated Silicon
SM10.6-10Y-24.4x17.8x1.5-WT 10 24.4x17.8x1.5 Gold coated Silicon
SM10.6-10X-18x14x2-LK 10 18x14x2 Gold coated Silicon
SM10.6-10Y-24x16x2-LK 10 24x16x2 Gold coated Silicon
SM10.6-12X-21x16.8x2-SJ 12 21x16.8x2 Gold coated Silicon
SM10.6-12Y-30x19x2-SJ 12 30x19x2 Gold coated Silicon
SM10.6-12X-21x16x2-WT 12 21x16x2 Gold coated Silicon
SM10.6-12Y-32x19x2-WT 12 32x19x2 Gold coated Silicon
SM10.6-12X-20x16x2-LK 12 20x16x2 Gold coated Silicon
SM10.6-12Y-30x19x2-LK 12 30x19x2 Gold coated Silicon
SM10.6-15X-27x19x2-SJ 15 27x19x2 Gold coated Silicon
SM10.6-15Y-37x22x2-SJ 15 37x22x2 Gold coated Silicon
SM10.6-16X-28x20x2-SJ 16 28x20x2 Gold coated Silicon
SM10.6-16Y-39x23x2-SJ 16 39x23x2 Gold coated Silicon
SM10.6-16X-27x21-2.5-LK 16 27x21-2.5 Gold coated Silicon
SM10.6-16Y-38x24x2.5-LK 16 38x24x2.5 Gold coated Silicon
SM10.6-20X-37x24x2-SJ 20 37x24x2 Gold coated Silicon
SM10.6-20Y-49x31x2-SJ 20 49x31x2 Gold coated Silicon
SM10.6-25X-46x30x3-SJ 25 46x30x3 Gold coated Silicon
SM10.6-25Y-56.4x39x3-SJ 25 56.4x39x3 Gold coated Silicon

The scanning mirrors is light weight rectangular mirrors that used for high speed two-axis laser scanning system. The dimensions for each mirror have been calculated accordingly with the laser beam size. The mirror has high reflectivity of 99.5% or above. The scanning mirror usually mounted on to a galvanometer for scanning purposes. For two axis scan mirror, commonly the Y mirror has a bigger size compared with the X mirror. This is due to the fact that the X mirror is used to scan the Y mirror rather than the object directly.