Frameless Mirror 24.4×24.4×7mm for 532nm

GMMUHP-24.4-532

Frameless mounting is designed to minimize product footprint and maximize the front surface area of the mirror used. Our high-reflectivity mirrors are produced using a ceramic material with thermal expansion ratio equivalent to Zerodur® to provide maximum thermal stability.
◦Laser damage threshold of the mirror is equivalent to our high power dielectric laser mirrors (TFMHP).
◦λ/10 surface accuracy guarantee after coating.
◦The Beamsplitter coating is equivalent to our ultra broadband dielectric half mirror (PSMH).
◦Fused Silica is used for our beamsplitters to minimize transmitted wavefront error(s).
More Information
Name Frameless Mirror 24.4×24.4×7mm for 532nm
Weight 0.0600kgs
Standard Coatings Available No
Guide
  • These mirrors are mounted to the base is the same method as using the mirror holder MHG. WEB Reference Catalog Code/W4001
  • Able to mount on Pedestal Bases (PST-**) and Pos (RO-**) with M6 thread (sold separately).
  • WEB Reference Catalog Code/W6039, WEB Reference Catalog Code/W6052
  • Please refer to here for "Wavelength Characteristic Data (Reference Data, Transmittance: T[%]) " for each wavelength.
Remark -
Attention
  • Surface accuracy data is not provided standard with the product. Please contact our Sales Division for this data at an additional charge.
  • The reflectance specifications are represented by the average of the reflectance of P polarized light and S polarized light.
  • If the product is used without setting the angle of incidence to 45 degrees, the reflection may decrease.
  • Be sure to wear laser safety goggles when checking optical path and adjusting optical axis.
Design wavelength 532nm
Image Label Frameless Mirror 24.4×24.4×7mm for 532nm
Mirror Size 24.4×24.4×7mm
Coating clear aperture 23×23mm
Surface flatness clear aperture φ20mm
Laser Damage Threshold<sup>*</sup> 26.5J/cm
* Laser Pulse width : 10ns , Pulse Repetition-Rate : 20Hz
In stock
SKU
GMMUHP-24.4-532
£668.80

Delivery in : 6-12 weeks

Frameless mounting is designed to minimize product footprint and maximize the front surface area of the mirror used. Our high-reflectivity mirrors are produced using a ceramic material with thermal expansion ratio equivalent to Zerodur® to provide maximum thermal stability.

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