|
|
|
|
|
|
Precision Photonics offers superior quality mirrors and coatings at a great value. We use only ion-beam-sputtered (IBS) coatings because IBS coatings are significantly more dense, durable, and rugged than conventional e-beam or ion-assisted evaporated coatings. Compared to other coatings, IBS coatings also offer lower scatter and absorption losses and fewer pin-hole defects in the coated surface. This superior film quality and uniformity results in environmentally stable optics with laser damage thresholds of >40 joules at 1064nm.
The SBB super broadband mirrors are ideal for beam-steering applications using both the fundamental laser wavelength and one or more harmonics within the same beam path. Because it is an all-dielectric design, they can handle the high laser powers of both CW and pulsed systems, without limiting the useful angle of incidence or sensitivity to varying states of polarization.
The MPM mirror has been specially designed for multi-photon applications requiring high reflectivity, broad bandwidth, low dispersion and high transmission in the visible spectrum. All our laser mirrors are ion beam sputtered; thus the coatings are dense, easy to clean and insensitive to moisture.
|
|
These laser mirrors are designed for specific wavelength laser applications where low wavefront distortion, low scattering, and high reflectivity are usually important. The reflectance is greater than 99.5% at the specified wavelength. Typically the s-polarization is greater than 99.9% and p-polarization is close to 99.5%.
Possible surface damage from higher power laser beams is minimized by careful polishing and precisely controlled coating methods.
As with the broadband mirrors, standard diameters are 1/2 inch, 3/4 inch, 1 inch and 2 inches. Other diameters are available on request. Other laser wavelengths can also be provided so please call.
|
|
Research Electro-Optics, Inc. (REO) produces laser components with the highest performance and greatest reliability worldwide utilizing its superior optical fabrication, superpolishing, and precision thin film coating capabilities. REO manufactures high reflector mirrors, output couplers, beam steering optics, edge filters and Brewster windows which offer the best available performance in terms of scatter, absorption, spectral characteristics, stability, laser damage threshold, and plasma durability.
Features
Superpolished Substrates
Plano and Spherical Optics (1 cm to infinity radius of curvature)
Ultra Low Scatter & Absorption (as little as 1part per million)
Ultra High Laser Damage Thresholds
Ion Beam Sputtered Coatings
Mirrors with Extremely High Reflectivity (up to 99.999%)
Extremely High Ultraviolet and Plasma Durability
High Moisture and Temperature Stabilities
Applications
Lasers (244 nm - 3.39um)
Inter Cavity Optics
Frequency Reference Cavities
Optical Instrumentation
|
|
MDG mirror series was designed to meet any protection need when it is necessary to realize a perimetrical protection.
It is possible to use them with every SB4/SB2 safety barrier. Thanks to the easy installation and excellent performances, this product is extremely versatile and suites the varied applications. This mirror series was born to meet any protection need it is necessary to realize a perimetrical protection.
|
|
|
The Universal Mirror Mount/Platform 840-0052 is suited for precise adjustment of standard mirrors which can be directly bound to it. The mount may be used in horizontal position as a tilt table. Then it can be used to align opto-mechanics around two axes. For such mounting the mount has an M4 hole on its back
|
|
The Laser Mech Lens Mounting System solves the problem of lens removal for replacement and inspection. By using a simple cartridge mounted lens inserted into a side slot in a permanently positioned manifold block, the problems of the traditional threaded, axially inserted lenses are avoided. This innovative mounting method allows removal and replacement of the lens in seconds with no readjustment of the optical alignment and without the removal, replacement or disassembly of any other part of the optical system.
Each assembly consists of a lens mount manifold block with very fine, adjustable lens centering screws and a spring-loaded, lens holder assembly to hold the lens. The lens holder contains all the seals necessary to pressurize the space beneath the lens for use with the Gas Jet Manifold.
|
|
| ... products without technical information |
| |
|
|
|
|
Precision Photonics offers superior quality mirrors and coatings at a great value. We use only ion-beam-sputtered (IBS) coatings because IBS coatings are significantly more dense, durable, and rugged than conventional e-beam or ion-assisted evaporated coatings. Compared to other coatings, IBS coatings also offer lower scatter and absorption losses and fewer pin-hole defects in the coated surface. This superior film quality and uniformity results in environmentally stable optics with laser damage thresholds of >40 joules at 1064nm.
The SBB super broadband mirrors are ideal for beam-steering applications using both the fundamental laser wavelength and one or more harmonics within the same beam path. Because it is an all-dielectric design, they can handle the high laser powers of both CW and pulsed systems, without limiting the useful angle of incidence or sensitivity to varying states of polarization.
The MPM mirror has been specially designed for multi-photon applications requiring high reflectivity, broad bandwidth, low dispersion and high transmission in the visible spectrum. All our laser mirrors are ion beam sputtered; thus the coatings are dense, easy to clean and insensitive to moisture.
|
|
These laser mirrors are designed for specific wavelength laser applications where low wavefront distortion, low scattering, and high reflectivity are usually important. The reflectance is greater than 99.5% at the specified wavelength. Typically the s-polarization is greater than 99.9% and p-polarization is close to 99.5%.
Possible surface damage from higher power laser beams is minimized by careful polishing and precisely controlled coating methods.
As with the broadband mirrors, standard diameters are 1/2 inch, 3/4 inch, 1 inch and 2 inches. Other diameters are available on request. Other laser wavelengths can also be provided so please call.
|
|
Research Electro-Optics, Inc. (REO) produces laser components with the highest performance and greatest reliability worldwide utilizing its superior optical fabrication, superpolishing, and precision thin film coating capabilities. REO manufactures high reflector mirrors, output couplers, beam steering optics, edge filters and Brewster windows which offer the best available performance in terms of scatter, absorption, spectral characteristics, stability, laser damage threshold, and plasma durability.
Features
Superpolished Substrates
Plano and Spherical Optics (1 cm to infinity radius of curvature)
Ultra Low Scatter & Absorption (as little as 1part per million)
Ultra High Laser Damage Thresholds
Ion Beam Sputtered Coatings
Mirrors with Extremely High Reflectivity (up to 99.999%)
Extremely High Ultraviolet and Plasma Durability
High Moisture and Temperature Stabilities
Applications
Lasers (244 nm - 3.39um)
Inter Cavity Optics
Frequency Reference Cavities
Optical Instrumentation
|
|
MDG mirror series was designed to meet any protection need when it is necessary to realize a perimetrical protection.
It is possible to use them with every SB4/SB2 safety barrier. Thanks to the easy installation and excellent performances, this product is extremely versatile and suites the varied applications. This mirror series was born to meet any protection need it is necessary to realize a perimetrical protection.
|
|
|
Mirrors are available in a variety of sizes and shapes. In addition to shape and dimensions, the primary factors that need to be considered when specifying a mirror are: the reflective coating, the substrate material, the flatness or surface accuracy, cosmetic surface quality.
|
|
| ... products without technical information |
| |
|
The Universal Mirror Mount/Platform 840-0052 is suited for precise adjustment of standard mirrors which can be directly bound to it. The mount may be used in horizontal position as a tilt table. Then it can be used to align opto-mechanics around two axes. For such mounting the mount has an M4 hole on its back
|
|
The Laser Mech Lens Mounting System solves the problem of lens removal for replacement and inspection. By using a simple cartridge mounted lens inserted into a side slot in a permanently positioned manifold block, the problems of the traditional threaded, axially inserted lenses are avoided. This innovative mounting method allows removal and replacement of the lens in seconds with no readjustment of the optical alignment and without the removal, replacement or disassembly of any other part of the optical system.
Each assembly consists of a lens mount manifold block with very fine, adjustable lens centering screws and a spring-loaded, lens holder assembly to hold the lens. The lens holder contains all the seals necessary to pressurize the space beneath the lens for use with the Gas Jet Manifold.
|
|
|
|
