Page 8 - Optical Mirrors - Find High-Quality Mirrors for Your Optical System

UV-VIS Dichroic Mirror 308nm 308/V-FR45-1D-MB (1.0” Diameter)

Teledyne Acton Optics Sponsored

Add to watch list

Acton Optics presents Dichroic Mirrors featuring specialized multilayer dielectric coatings for UV/VIS and UV/IR applications. These mirrors enable the reflection of specific UV laser wavelengths while ensuring good broadband VIS/NIR transmittance. UV/VIS Dichroic Mirrors utilize UV laser-grade fused silica substrates optimized for ...

Specifications
Wavelength Range:	UV (200-400 nm)
Transmission Range:	400-8000nm
Reflection Range:	288-328nm
Angle Of Incidence:	45°
Substrate Material:	UV-grade Fused Silica
...

Data Sheet

Al+MgF2 Broadband Mirror 190nm H1900-1D-MB (1.0" Diameter)

Teledyne Acton Optics Sponsored

Add to watch list

Acton's Al+MgF2 Broadband Mirrors are engineered with high-efficiency coatings, setting the industry standard for broadband UV and VUV reflectance. These mirrors offer exceptional reflectance down to 120 nm, ensuring excellent performance throughout the visible and near-infrared ranges. Available in optimized coatings for 120 nm, ...

Specifications
Reflective Coating:	UV-Enhanced Aluminum
Substrate:	Metallic
Average Reflectance:	87 %
Wavelength Range:	190-600nm
Surface Flatness:	Custom
...

Data Sheet

TOWER OPTICAL: Precision Optical Flat 4542-0005

Tower Optical Corporation

Add to watch list

Precision optical flats are Fused Silica optical components that are used as a reference against which the flatness of an unknown surface can be determined. For less demanding jobs Tower offers them made from BK7 with a flatness specified as λ/4 or better. These optical flats may also be used as windows.

Specifications
Diameter:	50 mm
Thickness:	15 mm
Substrate:	BK7
Flatness:	lambda/4
Single Or Dual Surface:	Single
...

Data Sheet

TOWER OPTICAL: Precision Optical Flat 4542-0020

Tower Optical Corporation

Add to watch list

Precision optical flats are Fused Silica optical components that are used as a reference against which the flatness of an unknown surface can be determined. For less demanding jobs Tower offers them made from BK7 with a flatness specified as λ/4 or better. These optical flats may also be used as windows.

Specifications
Diameter:	200 mm
Thickness:	38 mm
Substrate:	Fused Silica
Flatness:	lambda/10
Single Or Dual Surface:	Dual
...

Data Sheet

TOWER OPTICAL: Precision Optical Flat 4542-0018

Tower Optical Corporation

Add to watch list

Precision optical flats are Fused Silica optical components that are used as a reference against which the flatness of an unknown surface can be determined. For less demanding jobs Tower offers them made from BK7 with a flatness specified as λ/4 or better. These optical flats may also be used as windows.

Specifications
Diameter:	200 mm
Thickness:	38 mm
Substrate:	Fused Silica
Flatness:	lambda/10
Single Or Dual Surface:	Single
...

Data Sheet

TOWER OPTICAL: Precision Optical Flat 4542-0016

Tower Optical Corporation

Add to watch list

Precision optical flats are Fused Silica optical components that are used as a reference against which the flatness of an unknown surface can be determined. For less demanding jobs Tower offers them made from BK7 with a flatness specified as λ/4 or better. These optical flats may also be used as windows.

Specifications
Diameter:	150 mm
Thickness:	25 mm
Substrate:	Fused Silica
Flatness:	lambda/10
Single Or Dual Surface:	Dual
...

Data Sheet

TOWER OPTICAL: Precision Optical Flat 4542-0014

Tower Optical Corporation

Add to watch list

Precision optical flats are Fused Silica optical components that are used as a reference against which the flatness of an unknown surface can be determined. For less demanding jobs Tower offers them made from BK7 with a flatness specified as λ/4 or better. These optical flats may also be used as windows.

Specifications
Diameter:	150 mm
Thickness:	25 mm
Substrate:	Fused Silica
Flatness:	lambda/10
Single Or Dual Surface:	Single
...

Data Sheet

TOWER OPTICAL: Precision Optical Flat 4542-0012

Tower Optical Corporation

Add to watch list

Precision optical flats are Fused Silica optical components that are used as a reference against which the flatness of an unknown surface can be determined. For less demanding jobs Tower offers them made from BK7 with a flatness specified as λ/4 or better. These optical flats may also be used as windows.

Specifications
Diameter:	100 mm
Thickness:	20 mm
Substrate:	Fused Silica
Flatness:	lambda/10
Single Or Dual Surface:	Dual
...

Data Sheet

TOWER OPTICAL: Precision Optical Flat 4542-0010

Tower Optical Corporation

Add to watch list

Precision optical flats are Fused Silica optical components that are used as a reference against which the flatness of an unknown surface can be determined. For less demanding jobs Tower offers them made from BK7 with a flatness specified as λ/4 or better. These optical flats may also be used as windows.

Specifications
Diameter:	100 mm
Thickness:	20 mm
Substrate:	Fused Silica
Flatness:	lambda/10
Single Or Dual Surface:	Single
...

Data Sheet

TOWER OPTICAL: Hot Mirror MC45-50.8

Tower Optical Corporation

Add to watch list

Hot Mirrors are used in applications when there is the requirement to separate visible light from heat. The hot mirror accomplishes this by reflecting the heat. The use of Borosilicate type glass allows operation in high temperatures. Operation at an AOI of 0º is preferred. The most common wavelength range for an average ...

Specifications
Diameter:	50.8 mm
Thickness:	3.3 mm
Surface Flatness:	lambda/2
Surface Quality:	80-50 scratch-dig
Transmission:	85 %
...

Data Sheet

TOWER OPTICAL: Hot Mirror MC45-25.4

Tower Optical Corporation

Add to watch list

Hot Mirrors are used in applications when there is the requirement to separate visible light from heat. The hot mirror accomplishes this by reflecting the heat. The use of Borosilicate type glass allows operation in high temperatures. Operation at an AOI of 0º is preferred. The most common wavelength range for an average ...

Specifications
Diameter:	25.4 mm
Thickness:	3.3 mm
Surface Flatness:	lambda/2
Surface Quality:	80-50 scratch-dig
Transmission:	85 %
...

Data Sheet

TOWER OPTICAL: Hot Mirror MC0-50.8

Tower Optical Corporation

Add to watch list

Hot Mirrors are used in applications when there is the requirement to separate visible light from heat. The hot mirror accomplishes this by reflecting the heat. The use of Borosilicate type glass allows operation in high temperatures. Operation at an AOI of 0º is preferred. The most common wavelength range for an average ...

Specifications
Diameter:	50.8 mm
Thickness:	3.3 mm
Surface Flatness:	lambda/2
Surface Quality:	80-50 scratch-dig
Transmission:	85 %
...

Data Sheet

TOWER OPTICAL: Hot Mirror MC0-25.4

Tower Optical Corporation

Add to watch list

Hot Mirrors are used in applications when there is the requirement to separate visible light from heat. The hot mirror accomplishes this by reflecting the heat. The use of Borosilicate type glass allows operation in high temperatures. Operation at an AOI of 0º is preferred. The most common wavelength range for an average ...

Specifications
Diameter:	25.4 mm
Thickness:	3.3 mm
Surface Flatness:	lambda/2
Surface Quality:	80-50 scratch-dig
Transmission:	85 %
...

Data Sheet

TOWER OPTICAL: Cold Mirror MC45-50.8

Tower Optical Corporation

Add to watch list

Hot Mirrors are used in applications when there is the requirement to separate visible light from heat. The hot mirror accomplishes this by reflecting the heat. The use of Borosilicate type glass allows operation in high temperatures. Operation at an AOI of 0º is preferred. The most common wavelength range for an average ...

Specifications
Diameter:	50.8 mm
Thickness:	3.3 mm
Surface Flatness:	lambda/2
Surface Quality:	80-50 scratch-dig
Transmission:	85 %
...

Data Sheet

TOWER OPTICAL: Cold Mirror MC45-25.4

Tower Optical Corporation

Add to watch list

Hot Mirrors are used in applications when there is the requirement to separate visible light from heat. The hot mirror accomplishes this by reflecting the heat. The use of Borosilicate type glass allows operation in high temperatures. Operation at an AOI of 0º is preferred. The most common wavelength range for an average ...

Specifications
Diameter:	25.4 mm
Thickness:	3.3 mm
Surface Flatness:	lambda/2
Surface Quality:	80-50 scratch-dig
Transmission:	85 %
...

Data Sheet

TOWER OPTICAL: Cold Mirror MC0-50.8

Tower Optical Corporation

Add to watch list

Hot Mirrors are used in applications when there is the requirement to separate visible light from heat. The hot mirror accomplishes this by reflecting the heat. The use of Borosilicate type glass allows operation in high temperatures. Operation at an AOI of 0º is preferred. The most common wavelength range for an average ...

Specifications
Diameter:	50.8 mm
Thickness:	3.3 mm
Surface Flatness:	lambda/2
Surface Quality:	80-50 scratch-dig
Transmission:	85 %
...

Data Sheet

TOWER OPTICAL: Cold Mirror MC0-25.4

Tower Optical Corporation

Add to watch list

Hot Mirrors are used in applications when there is the requirement to separate visible light from heat. The hot mirror accomplishes this by reflecting the heat. The use of Borosilicate type glass allows operation in high temperatures. Operation at an AOI of 0º is preferred. The most common wavelength range for an average ...

Specifications
Diameter:	25.4 mm
Thickness:	3.3 mm
Surface Flatness:	lambda/2
Surface Quality:	80-50 scratch-dig
Transmission:	85 %
...

Data Sheet

UV Grade Fused Silica Mirror, High Grade MF22-050

Tower Optical Corporation

Add to watch list

Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications
Reflective Coating:	Protected Aluminum, Protected Silver
Substrate:	UV Fused Silica
Average Reflectance:	95 %
Wavelength Range:	500-1000nm
Surface Flatness:	lambda/10
...

Data Sheet

UV Grade Fused Silica Mirror, High Grade MF22-038

Tower Optical Corporation

Add to watch list

Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications
Reflective Coating:	Protected Aluminum, Protected Silver
Substrate:	UV Fused Silica
Average Reflectance:	95 %
Wavelength Range:	500-1000nm
Surface Flatness:	lambda/10
...

Data Sheet

UV Grade Fused Silica Mirror, High Grade MF22-025

Tower Optical Corporation

Add to watch list

Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications
Reflective Coating:	Protected Aluminum, Protected Silver
Substrate:	UV Fused Silica
Average Reflectance:	95 %
Wavelength Range:	500-1000nm
Surface Flatness:	lambda/10
...

Data Sheet

UV Grade Fused Silica Mirror, High Grade MF22-020

Tower Optical Corporation

Add to watch list

Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications
Reflective Coating:	Protected Aluminum, Protected Silver
Substrate:	UV Fused Silica
Average Reflectance:	95 %
Wavelength Range:	500-1000nm
Surface Flatness:	lambda/10
...

Data Sheet

UV Grade Fused Silica Mirror, High Grade MF22-012

Tower Optical Corporation

Add to watch list

Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications
Reflective Coating:	Protected Aluminum, Protected Silver
Substrate:	UV Fused Silica
Average Reflectance:	95 %
Wavelength Range:	500-1000nm
Surface Flatness:	lambda/10
...

Data Sheet

UV Grade Fused Silica Mirror, High Grade MF22-010

Tower Optical Corporation

Add to watch list

Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications
Reflective Coating:	Protected Aluminum, Protected Silver
Substrate:	UV Fused Silica
Average Reflectance:	95 %
Wavelength Range:	500-1000nm
Surface Flatness:	lambda/10
...

Data Sheet

BK7 Grade A Optical Glass High Grade MB12-050 Mirror

Tower Optical Corporation

Add to watch list

Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications
Reflective Coating:	Protected Aluminum, Protected Silver
Substrate:	BK7
Average Reflectance:	95 %
Wavelength Range:	500-1000nm
Surface Flatness:	lambda/10
...

Data Sheet

BK7 Grade A Optical Glass High Grade MB12-038 Mirror

Tower Optical Corporation

Add to watch list

Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications
Reflective Coating:	Protected Aluminum, Protected Silver
Substrate:	BK7
Average Reflectance:	95 %
Wavelength Range:	500-1000nm
Surface Flatness:	lambda/10
...

Data Sheet

BK7 Grade A Optical Glass High Grade MB12-025 Mirror

Tower Optical Corporation

Add to watch list

Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications
Reflective Coating:	Protected Aluminum, Protected Silver
Substrate:	BK7
Average Reflectance:	95 %
Wavelength Range:	500-1000nm
Surface Flatness:	lambda/10
...

Data Sheet

BK7 Grade A Optical Glass High Grade MB12-020 Mirror

Tower Optical Corporation

Add to watch list

Mirrors have a highly polished surface for reflecting light. The reflecting surface is usually a thin coating of aluminum or silver. Most mirrors for optical applications are called first surface types since the coating is on the front surface thereby eliminating the optical properties of the glass from affecting the incident or ...

Specifications
Reflective Coating:	Protected Aluminum, Protected Silver
Substrate:	BK7
Average Reflectance:	95 %
Wavelength Range:	500-1000nm
Surface Flatness:	lambda/10
...

Data Sheet

Mirrors

Page 8 - Optical Mirrors

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications

Specifications