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Resources / Application Notes / Optics / Metallic Mirror Coatings

Metallic Mirror Coatings

Edmund Optics® manufactures a wide range of precision parabolic, spherical, and flat mirrors with a number of different substrate materials. These products are offered in a variety of metallic and
dielectric coatings to suit all your application requirements. Metallic mirror coatings are optimized for different regions of the spectrum. Edmund Optics® offers a series of metallic coatings for
applications using wavelengths ranging from 120nm to beyond 10μm. Our standard metallic mirror coatings include Protected Aluminum, Enhanced Aluminum, UV Enhanced Aluminum, DUV
Enhanced Aluminum, Bare Gold, Protected Gold, and Protected Silver. Protected Aluminum and Enhanced Aluminum are typically used for visible applications. UV and DUV Enhanced Aluminum
can be used for UV and visible applications. Bare or Protected Gold offers high reflectance for near​Infrared (NIR) and Infrared wavelengths. Protected Silver provides the highest reflectance
between 500 ​ 800nm and also performs well in near­Infrared and Infrared applications.

Introduction to First Surface and Second Surface Mirrors

All of our mirrors are first surface mirrors, (Figure 1) featuring a high reflectance coating deposited on the front surface of a variety of different types of glass, metal, or semiconductor substrates.
First surface mirrors are recommended for use in precision optics applications. Second surface mirrors (Figure 2) can be manufactured using similar coating technology, but the incident light first
passes through a transparent substrate material before it is reflected by the coating. This geometry helps protect the coating layer from scratches and oxidization but leads to several other important
issues that make this type of mirror unsuitable for most precision optics applications:

1. Light incident on a second surface mirror is subject to chromatic dispersion from the substrate material.
2. Reflection at the substrate leads to ghost images, indicated by the dashed orange line. A second unwanted reflection occurs as the light exits the substrate decreasing the net reflectance of the
mirror. Additional stray ghost reflections may also be seen as the light bounces between the coated and non­coated surfaces of the substrate.

First Surface Mirror

Figure 1: Reflection from a First Surface Mirror

Second Surface Mirror

Figure 2: Reflection from a Second Surface Mirror showing the ghost reflection
and refraction in the mirror substrate.

What is an Enhanced or Protected Metal Coating?

Metal coatings are typically very delicate without a protective coating and require extra care during handling and cleaning. The surface of an unprotected metal coating should never be touched or
cleaned with anything but clean, dry air. A dielectric overcoat on a metallic mirror allows for improved handling of the component, increases the durability of the metal coating and provides
protection from oxidation with little impact to the performance of the metal coating. The dielectric layer(s) can also be designed to enhance the reflectance of the metal coating in specific spectral
regions. Isopropyl alcohol or acetone can be used to clean our protected metal coated mirrors. A mirror coating selection guide is given in Figure 3 below and summary of key parameters is given
on Table 1.

Figure 3: Metallic Mirror Coating Reflectance Curves ­ Theoretical reflectance

rises gradually through 10μm

Protected Aluminum

Standard protected aluminum is our most popular mirror coating for applications in the visible and near infrared. A λ/2 coating of Silicon Monoxide (SiO) is typically used as an overcoat to protect
the delicate aluminum. This treatment provides an abrasion­resistant surface while maintaining the performance of aluminum mirror.

Enhanced Aluminum
In an Enhanced Aluminum coating, a multi­layer film of dielectrics on top of aluminum is used to increase the reflectance in the visible or ultraviolet regions. This coating is ideal for applications
requiring increased reflectance from 400 ­ 650nm while the UV and DUV Enhanced Aluminum coatings yield increased reflectance from 120 – 400nm range. The multi­layer film also provides the
improved handling characteristics of the protected aluminum coating.

Protected Silver

Silver offers high reflectancein the visible and infrared spectral regions, making it an excellent choice for broadband applications that span multiple spectral regions. A protective coating reduces
silver's tendency to tarnish but the coating still performs best in low humidity environments.

Bare and Protected Gold

Gold coatings are effective for applications requiring high reflectance in the NIR and IR regions. Since a durable coating is necessary in many applications, we offer gold with a protective overcoat.
The performance of gold (96% reflectivity from 750 – 1500nm) is maintained, but the optic has a more durable finish.

Table 1: Metallic Mirror Coating Summary

Name Wavelength Range Reflection Specifications Typical Energy Density Limit
120­125nm Ravg >78%
VUV Enhanced Aluminum
120­700nm Ravg >88%
190­195nm Ravg >88%
DUV Enhanced Aluminum
190­600nm Ravg >85%
250­450nm Ravg >89%
UV Enhanced Aluminum 0.5 J/cm2 @ 355nm, 10ns
250­700nm Ravg >85%
400­700nm Ravg >85%
Protected Aluminum 0.3 J/cm2 @ 532nm & 1064nm, 10ns
400­2000nm Ravg >90%
Enhanced Aluminum 450­650nm Ravg >95% 0.2 J/cm2 @ 532nm, 10ns
450­2000nm Ravg >98%
Protected Silver 0.5 J/cm2 @ 532nm & 1064nm, 10ns
2000­10000nm Ravg >98%
700­2000nm Ravg >96%
Protected Gold 0.8 J/cm2 @ 1064nm, 10ns
2000­10000nm Ravg >96%

Figure 4: Typical Reflectance Curves for Metallic Mirror

Custom Mirror Coatings Available

Edmund Optics® is a leading designer and manufacturer of laser coatings for mirrors, beamsplitters, windows, and other optical components. We work with a number of testing laboratories to
independently qualify and certify our coatings for resistance to laser damage. All specified damage threshold values have been obtained by testing multiple coating runs to ensure an accurate result.
The values specified are conservative, with typical data showing that our mirrors are able to withstand 2­3 times the specified threshold.

We are able to design and manufacture coatings for single or multiple laser lines, as well as for broadband tunable laser sources. Coatings designs are also available for partial reflectors, output
couplers, and etalons, and for any angle of incidence or polarization state. Our world class manufacturing facilities are able to produce substrates with surface accuracies of < λ/20, surface qualities
of 10­5, parallelism of <0.5 arcseconds, and surface roughness of <5 Angstroms in any glass and most crystalline substrates. We will also coat customer­supplied substrates for prototype or
production volumes.

For high­power applications, coating designers choose materials with intrinsically low absorption at the relevant wavelengths. But the customer also needs to be aware that the choice of coating
materials for high­power applications is limited. The system­designer does well to design for optics with the appropriate damage thresholds from the beginning of the optical design process.

Coatings for use with high­power ultraviolet (UV) lasers are made of different materials from those for use in the visible and near­infrared (IR). The core structure of high­reflection coatings is
typically a repeating stack of high­ and low­index layers, each a quarter­wavelength thick. The design of the coating can significantly alter the damage threshold. Simply adding a half­wave of low­
index material (normally silicon dioxide) as the final layer can result in measurably higher damage thresholds. Silicon dioxide (SiO2) is the generally accepted and ubiquitous choice for low­index
layers, and dielectric metal oxides in general are preferred materials for UV, visible, and near­IR laser applications. Choosing a material for high­index layers is not as straightforward: oxides of
titanium, tantalum, zirconium, hafnium, scandium, and niobium are all popular high­index materials.

BBHR and NBHR (Notch Filter)

Visible Broadband: Ravg >98%, 425­675nm, 0­45° AOI

Notch Filter: R >90% at Center Wavelength (CWL), FWHM < 0.12 CWL, Tavg >90% for Out of Band Wavelengths
Custom Coatings Available for Wavelengths between 300­1800nm (BBHR) and 350­850nm (Notch)

Figure 5: Broadband and Narrow Band High Reflectors

Single and Dual Laser Line Reflector

Maximum Reflectance at 1 or 2 Customer Selected Wavelengths from 190­3000nm (Single Line) or 350­1700nm (Dual Line)
Single Line: R >99.5%, at Design Wavelength
 Dual Line: R >98.5%, at Both Wavelengths of Interest

Figure 6: Dual Laser Line Reflector

Laser Line Beamsplitter

Partial Reflectance from 5%R to 95%R, per Customer Requirement

Reflectance Specification: R% = ±2%; Typical: R% = ±1%
45°, Random and Non­polarizing Versions
Design Wavelengths from 250­3000nm

Figure 7: Laser Line Beamsplitter Coatings

Note: All graphs and values are typical and for reference only.

Edmund Optics Products – Standard metallic mirror coatings are available on the following optics:

Prisms
Mirrors
Dispersion Prisms
Diverging Mirrors
Right Angle Prisms
Flat Mirrors
Image Rotation Prisms
Focusing Mirrors
Retroreflection Prisms
Specialty Mirrors
Specialty Prisms

An Introduction to Optical Coatings

Coatings control the reflection and transmission of light through the mechanism of optical interference. We'll teach you the basics to help you choose the right coating for your next application.

Stock and Custom Optical Coatings

We offer a variety of single and multi­layer coatings including broadband, v­coat, polarizing, metallic, and narrow bandpass in the UV, visible, and IR spectra. Check out what we can do for you.

Optical Mirrors

Laser, flat, metal substrate, focusing, or specialty mirrors in a range of reflective coating options, including aluminum, silver, gold, or dielectric.

Anti­Reflection (AR) Coatings

Is the total transmission in your application not enough? Try an anti­reflection coating on your optics. See what EO has to offer.

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