Reasonable Aluminum Flat Mirror 50mm 8mm Thick λ/10

S-TFA-50C08-10

An economic general use mirror suitable for an illumination optical system and a simple experiments. It has the same reflectance and surface flatness as our aluminum mirrors (TFA) designed for use with a laser, but lower surface quality.
◦The dirt on the surface of the mirror can be wiped because the scratch-resistant protection is coated on the aluminum coating.
◦Reflectance of less variation can be obtained in a wide wavelength range from visible to near-infrared.
More Information
Name Reasonable Aluminum Flat Mirror 50mm 8mm Thick λ/10
Weight 0.0400kgs
Standard Coatings Available No
Guide -
Remark -
Attention
  • When a laser is transmitted with multiple mirrors installed, there will be loss of a large amount of light caused by the absorption of the aluminum coating. Please switch to dielectric multi-layer mirrors (TFM) for improved performance.
  • Reflectance specification is represented by the average of the reflectance of P polarized light and S polarized light. Reflectance may vary depending on the polarization state of the incident beam.
Image Label Reasonable Aluminum Flat Mirror 50mm 8mm Thick λ/10
Diameter φD 50mm
Rear Surface Polished
Reflectance Rave.>90%
Material BK7
Coating Al+MgF2
Parallelism <3′
Incident angle 45°
Laser Damage Threshold 0.25J/cm2 (Laser pulse width ; 10ns , Repetition frequency ; 20Hz)
Surface Quality (Scratch-Dig) 60-40
Diameter φD φ50mm
Outer dimension A×B
Thickness t 8mm
Surface Flatness λ/10
Rear surface Polished
In stock
SKU
S-TFA-50C08-10
£68.60

Delivery in : 6-12 weeks

An economic general use mirror suitable for an illumination optical system and a simple experiments. It has the same reflectance and surface flatness as our aluminum mirrors (TFA) designed for use with a laser, but lower surface quality.

Resources & Downloads

We detect that you are accessing the website from a different region. You will be redirected to a local version of OptoSigma.

Your requested the page :

UNITED KINGDOM

Redirection to :