Our stock products are being manufactured in our plants continuously in order to provide you a shortest lead time as possible.
In the following table you may find typical lead times. They may vary depending on quantity and raw material availability. Some products are having an interchangeable parts.
You will receive an accurate delvery date on your order confirmation after you ordered.
|Optomechanics||Average 2 - 5 weeks*|
|Optics||Average 2 - 5 weeks*|
|Motorized Stages||Average 3 - 6 weeks*|
|System||Average 3 – 6 weeks*|
*This is an average typical lead time. For more details, please ask to: firstname.lastname@example.org
The stock availability for this product is limited at the moment. Please contact the sales team for more information at email@example.com.
Estimated average shipping time is 2 - 10 working days. For urgent shipping please contact the sales team at firstname.lastname@example.org. Extra charges may applies.
At this time pre-manufactured parts are already available for a quick assembly.
The typical lead times is estimated at 1 - 3 weeks after your order, depending on quantity.
You will receive an accurate delivery date on your order confirmation after you ordered.
For more details, please ask to : email@example.com
Low polarizing cube half mirrors can be used for broadband visible and infrared light. Cubes are applicable for use in polarizing systems and lasers with multiple wavelength or visible light.
◦This hybrid coating is a special combination of metallic and dielectric multi-layers that result in low polarizing and broadband coating.
◦As it is cube shaped, there will not be any lateral shift of the optical axis when a normal incident beam is applied. During transmission and reflection of lights, the aperture remains unchanged.
◦Even when the orientation of linear polarization has been changed, beams are equally divided as reflected (R) : transmitted (T) (ratio is 1:1)
▶Please contact our Sales Division for customized products. (Customized on size, wavelength or R:T, etc.)
▶For a guarantee in reflected wavefront error or transmitted wavefront error, please contact our Sales Division.
▶Please refer to here for Wavelength Characteristic Data (Reference Data, EXCEL file format).
▶Input beam from the prism side is indicated by a “○”. Reflection and refraction over wavelength will differ when light input is applied from the opposite side of the prism.
▶Approximately 10% to 15% of absorption occurs in hybrid coating due to the properties in metallic coating reducing the transmitted or reflected light.
▶Phase retardation of light input will not be preserved. Use a waveplate for phase compensation.
▶Wavelength dispersion of transmitted and reflected light is derived from refractive index and glass thickness and when diverging or introducing a focusing beam, chromatic aberration or spherical aberration may occur.
|Surface flatness of substrate||λ/4|
|Coating||Hypotenuse surface ; Hybrid coating (dielectric and metallic multilayer coating) |
Four surfaces ; Multilayer antireflection coating
|Divergence ratio |
(reflectance : transmittance)
|1 : 1|
|Laser Damage Threshold||0.3J/cm2 (Laser pulse width ; 10ns , Repetition frequency ; 20Hz)|
|Surface Quality |
|Clear aperture||Circle that inscribed in a square of 85% of the dimensions|