Hybrid Cube Half Mirrors

HBCH

In stock

SKU

HBCH

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.

Add to Wish List

Customize product

Filters

Enabled filters :

Remove all filters

Name

Design wavelength

Length

Transmittance

Delivery

Price

Add to cart

details

HBCH-20-NIR

700 - 1100nm

20mm

47±10%(900nm)

1 week

€275.30

Material	BK7
Surface flatness of substrate	λ/4
Beam Deviation	＜5′
Coating	Hypotenuse surface ; Hybrid coating (dielectric and metallic multilayer coating) Four surfaces ; Multilayer antireflection coating
Incident angle	0°
Divergence ratio <br> (reflectance : transmittance)	1 : 1
Laser Damage Threshold	0.3J/cm² (Laser pulse width ; 10ns , Repetition frequency ; 20Hz)
Surface Quality <br> (Scratch-Dig)	40-20
Wavelength range	700 - 1100nm
A＝B＝C	20mm
Transmittance	47±10%(900nm)
Polarization dependency <br> ｜Ｔp-Ts｜	＜20%(＜10%：800 - 1100nm)

details

HBCH-20-IR

1300 - 1550nm

20mm

45±10%(1400nm)

1 week

€275.30

Material	BK7
Surface flatness of substrate	λ/4
Beam Deviation	＜5′
Coating	Hypotenuse surface ; Hybrid coating (dielectric and metallic multilayer coating) Four surfaces ; Multilayer antireflection coating
Incident angle	0°
Divergence ratio <br> (reflectance : transmittance)	1 : 1
Laser Damage Threshold	0.3J/cm² (Laser pulse width ; 10ns , Repetition frequency ; 20Hz)
Surface Quality <br> (Scratch-Dig)	40-20
Wavelength range	1300 - 1550nm
A＝B＝C	20mm
Transmittance	45±10%(1400nm)
Polarization dependency <br> ｜Ｔp-Ts｜	＜10%

details

HBCH-10-550

400 - 700nm

10mm

45±10%(550nm)

1 week

€220.20

Material	BK7
Surface flatness of substrate	λ/4
Beam Deviation	＜5′
Coating	Hypotenuse surface ; Hybrid coating (dielectric and metallic multilayer coating) Four surfaces ; Multilayer antireflection coating
Incident angle	0°
Divergence ratio <br> (reflectance : transmittance)	1 : 1
Laser Damage Threshold	0.3J/cm² (Laser pulse width ; 10ns , Repetition frequency ; 20Hz)
Surface Quality <br> (Scratch-Dig)	40-20
Wavelength range	400 - 700nm
A＝B＝C	10mm
Transmittance	45±10%(550nm)
Polarization dependency <br> ｜Ｔp-Ts｜	＜10%

details

HBCH-10-NIR

700 - 1100nm

10mm

47±10%(900nm)

6-12 weeks

€220.20

Material	BK7
Surface flatness of substrate	λ/4
Beam Deviation	＜5′
Coating	Hypotenuse surface ; Hybrid coating (dielectric and metallic multilayer coating) Four surfaces ; Multilayer antireflection coating
Incident angle	0°
Divergence ratio <br> (reflectance : transmittance)	1 : 1
Laser Damage Threshold	0.3J/cm² (Laser pulse width ; 10ns , Repetition frequency ; 20Hz)
Surface Quality <br> (Scratch-Dig)	40-20
Wavelength range	700 - 1100nm
A＝B＝C	10mm
Transmittance	47±10%(900nm)
Polarization dependency <br> ｜Ｔp-Ts｜	＜20%(＜10%：800 - 1100nm)

details

HBCH-10-IR

1300 - 1550nm

10mm

45±10%(1400nm)

6-12 weeks

€220.20

Material	BK7
Surface flatness of substrate	λ/4
Beam Deviation	＜5′
Coating	Hypotenuse surface ; Hybrid coating (dielectric and metallic multilayer coating) Four surfaces ; Multilayer antireflection coating
Incident angle	0°
Divergence ratio <br> (reflectance : transmittance)	1 : 1
Laser Damage Threshold	0.3J/cm² (Laser pulse width ; 10ns , Repetition frequency ; 20Hz)
Surface Quality <br> (Scratch-Dig)	40-20
Wavelength range	1300 - 1550nm
A＝B＝C	10mm
Transmittance	45±10%(1400nm)
Polarization dependency <br> ｜Ｔp-Ts｜	＜10%

details

HBCH-15-550

400 - 700nm

15mm

45±10%(550nm)

1 week

€197.40

Material	BK7
Surface flatness of substrate	λ/4
Beam Deviation	＜5′
Coating	Hypotenuse surface ; Hybrid coating (dielectric and metallic multilayer coating) Four surfaces ; Multilayer antireflection coating
Incident angle	0°
Divergence ratio <br> (reflectance : transmittance)	1 : 1
Laser Damage Threshold	0.3J/cm² (Laser pulse width ; 10ns , Repetition frequency ; 20Hz)
Surface Quality <br> (Scratch-Dig)	40-20
Wavelength range	400 - 700nm
A＝B＝C	15mm
Transmittance	45±10%(550nm)
Polarization dependency <br> ｜Ｔp-Ts｜	＜10%

details

HBCH-15-NIR

700 - 1100nm

15mm

47±10%(900nm)

1 week

€247.90

Material	BK7
Surface flatness of substrate	λ/4
Beam Deviation	＜5′
Coating	Hypotenuse surface ; Hybrid coating (dielectric and metallic multilayer coating) Four surfaces ; Multilayer antireflection coating
Incident angle	0°
Divergence ratio <br> (reflectance : transmittance)	1 : 1
Laser Damage Threshold	0.3J/cm² (Laser pulse width ; 10ns , Repetition frequency ; 20Hz)
Surface Quality <br> (Scratch-Dig)	40-20
Wavelength range	700 - 1100nm
A＝B＝C	15mm
Transmittance	47±10%(900nm)
Polarization dependency <br> ｜Ｔp-Ts｜	＜20%(＜10%：800 - 1100nm)

details

HBCH-15-IR

1300 - 1550nm

15mm

45±10%(1400nm)

6-12 weeks

€247.90

Material	BK7
Surface flatness of substrate	λ/4
Beam Deviation	＜5′
Coating	Hypotenuse surface ; Hybrid coating (dielectric and metallic multilayer coating) Four surfaces ; Multilayer antireflection coating
Incident angle	0°
Divergence ratio <br> (reflectance : transmittance)	1 : 1
Laser Damage Threshold	0.3J/cm² (Laser pulse width ; 10ns , Repetition frequency ; 20Hz)
Surface Quality <br> (Scratch-Dig)	40-20
Wavelength range	1300 - 1550nm
A＝B＝C	15mm
Transmittance	45±10%(1400nm)
Polarization dependency <br> ｜Ｔp-Ts｜	＜10%

details

HBCH-20-550

400 - 700nm

20mm

45±10%(550nm)

6-12 weeks

€215.80

Material	BK7
Surface flatness of substrate	λ/4
Beam Deviation	＜5′
Coating	Hypotenuse surface ; Hybrid coating (dielectric and metallic multilayer coating) Four surfaces ; Multilayer antireflection coating
Incident angle	0°
Divergence ratio <br> (reflectance : transmittance)	1 : 1
Laser Damage Threshold	0.3J/cm² (Laser pulse width ; 10ns , Repetition frequency ; 20Hz)
Surface Quality <br> (Scratch-Dig)	40-20
Wavelength range	400 - 700nm
A＝B＝C	20mm
Transmittance	45±10%(550nm)
Polarization dependency <br> ｜Ｔp-Ts｜	＜10%

You must be logged in to ask questions

◦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)