Dielectric Mirror is an optical mirror coated with multiple thin layers of dielectric material, substrate can be a glass or some other optical materials.
2. Founded in 2001 by optics manufacturing experts, Lecin Optics has
been a leading manufacturer and global supplier of optical
components to various industries. We have been exclusively
serving the optical markets all over the world. Lecin Optics has a
group of senior R&D team with rich practical experience, and a
group of skilled optical operation workers. We specialize in
manufacture of custom optics for many applications. Various kinds
of optical components such as optical prisms, optical filters, beam
splitters, optical mirrors, Aspheric Lenses and optical windows,
etc., can be manufactured according to customer's need.
3.
4. A dielectric mirror, also known as a Bragg mirror, is a type of
mirror composed of multiple thin layers of dielectric material,
typically deposited on a substrate of glass or some other optical
material. By careful choice of the type and thickness of the
dielectric layers, one can design an optical coating with specified
reflectivity at different wavelengths of light. Dielectric mirrors are
also used to produce ultra-high reflectivity mirrors: values of
99.999% or better over a narrow range of wavelengths can be
produced using special techniques. Alternatively, they can be made
to reflect a broad spectrum of light, such as the entire visible range
or the spectrum of the Ti-sapphire laser.
5. Broadband JGS1 reflective dielectric
mirrors LCDM1058
Broadband Dielectric Mirrors Right
Angle LCDM1059
Broadband Dielectric Mirrors λ/10
First Surface LCDM1060
Single Wavelength High Reflection
Dielectric Mirrors LCDM1061
Dual Wavelength High Reflection
Dielectric Mirrors LCDM1062
Broadband Laser Reflective
Mirrors LCDM1063
Many Types of Dielectric Mirrors
6. Mirrors are an essential tool in any laser system as they are used
for beam steering and sampling or for delivery of pump and
alignment lasers. A high-performance mirror needs to have low
scatter, high efficiency and excellent durability. Often in
conjunction with high laser damage threshold, Dielectric
Mirrors make their way to be the best quality mirrors.
Choosing a mirror requires first identifying the wavelength and
bandwidth required at which point more than one type of
coating may be offered.
7. This is typically made with one of the few materials with suitable optical properties like
silver, gold, aluminum or chrome.
In the design of dielectric glasses, an optical transfer-matrix method can be used. These
mirror coatings are ideal for applications that require maximum reflection over a specific
wavelength region.
The method is to apply the amount of the metal to achieve the amount of reflection
required for the mirror and it is used for creating Dielectric mirrors. Typically done using
alternating layers of a conductive material like ZrO2, TiO2, Ta2O3 or HfO2, it also uses an
insulator such as SiO2 or MgF2.
If you are not a big fan of wearing eye glasses but had to wear glasses, remember to
choose dielectric mirrors which has cool frames.
8. These mirrors are made of dielectric material which can shield your eyes from all the
dust and sun and at the same time work the specialize treatment you are going through
too. These are based on the interference of light reflected from the different layers of
dielectric stack.
Simple dielectric glasses functions with one-dimensional photonic crystals, consisting
stack of layers with a high refractive index interleaved with layers of a low refractive
index.
When a metal mirror is made, a thin layer of SiO2 is typically applied to it so that the
antifouling compound can permanently bond to the coating. This gives the appearance
that the coating is a dielectric.
Dielectric coatings in mirrors are manufactured below 60°C for direct deposition onto
fiber optic devices. These offer fibers ends, laser diodes, rod lenses, laser bars and other
temperature sensitive components.
Simple dielectric mirrors functions with one-dimensional photonic crystals, consisting
stack of layers with a high refractive index interleaved with layers of a low refractive
index.