CO2 Laser Mirror

Description: does not have absorption like AL and the reflectance can be more than 99% except some mirrors for UV wavelength. —¦These coatings are much stronger than Al+MgF2 coating against high-power lasers.

• Diameter/Width: 10 to 40 mm
• Mirror Coatings: Dielectric
• Mirror Shape: Round
• Mirror Types: Flat Mirror, Laser Mirror

Description: absorption like AL and the reflectance can be more than 99% except some mirrors for UV wavelength. —¦These coatings are much stronger than Al+MgF2 coating against high-power lasers.

• Diameter/Width: 25.4 to 50 mm
• Mirror Coatings: Dielectric
• Mirror Shape: Round
• Mirror Types: Flat Mirror, Laser Mirror

Description: used for? Our mirrors typically used in Nd: YAG, Ar-Ion, Kr-Ion, excimer, and CO2 lasers systems, it well suited for use with a range of high-powered pulsed laser sources. 5.3 Key Feasures: High Transmission High Reflection High Damage Threshold Excellent Film

• Mirror Shape: Round
• Mirror Types: Laser Mirror
• Surface Quality: 40-20 Scratch / Dig
• Wavelength Range: 351 to 1550 nm

Description: coating offers good reflectivity and high damage resistance. They are widely used in CO2 laser beam delivery where their massive power handling ability gives a long working life. Our mirrors are fitted to a 40KW welding laser. For standard specifications click here

• Mirror Materials: Copper, Fused Silica, Other Mirror Material

Description: Spherically curved mirrors are commonly used in laser cavities and in laser beam expanders for high power lasers. A large range of concave and convex mirrors with radius of curvature from 5mm to 100 meters are available. Spherical mirrors can often be used

• Mirror Types: Laser Mirror, Other

Description: does not have absorption like AL and the reflectance can be more than 99% except some mirrors for UV wavelength. —¦These coatings are much stronger than Al+MgF2 coating against high-power lasers.

• Diameter/Width: 12.7 to 50.8 mm
• Mirror Coatings: Dielectric
• Mirror Materials: BK7 Glass
• Mirror Shape: Round

Description: Our Laser Mirrors and Laser Windows feature high damage thresholds to high output YAG and Ti-sapphire Lasers. To a YAG laser wavelength of 1064 nm (10 ns, 20 Hz, 1 on 1), the world's top-class laser induced damage threshold of 190 J/cm2 has been

• Diameter/Width: 12.7 to 127 mm
• Incidence: 0º Incidence, 45º Incidence
• Mirror Materials: Other Mirror Material
• Surface Flatness: ?/10

Description: (A~Z) 0-45 Degree Diode Laser Mirrors 0-45 Degree Visible Laser Mirrors (488-694 nm) Alexandrite Laser Mirrors (720-780 nm) Aluminum, Silver and Gold Mirrors (protected) Co2 Laser Optics Copper vapor Laser Mirrors

• Mirror Coatings: Bare Aluminum, Protected Aluminum, Dielectric, Bare Gold, Protected Gold, Silver
• Mirror Materials: BK7 Glass, Fused Silica, UV Grade Fused Silica, Other Mirror Material
• Surface Flatness: ?/10
• Surface Quality: 10-5 Scratch / Dig

Description: . Ideal for high-energy Ti:Sapphire and microscopy applications Dispersion-free mirrors and beamsplitters Substrate material fused silica Wavefront ?/10 flatness (p-v at 633 nm, after coating with power subtracted) Surface Quality 20-10 Damage threshold ~ 2 J/cm2 for 500 fs

• Diameter/Width: 25.4 mm
• Mirror Shape: Round
• Mirror Types: Laser Mirror
• Surface Flatness: ?/10

Description: Broadband dielectric mirrors provide an optimised broadband performance at stated wavelength ranges. Broadband laser mirrors are designed for applications using Ti:Sapphire, dye, diode and YAG lasers. The achieved high polishing quality is important for low wave front

• Diameter/Width: 12.7 to 50.8 mm
• Incidence: 0º Incidence, 45º Incidence
• Mirror Coatings: Dielectric
• Mirror Materials: BK7 Glass, UV Grade Fused Silica

Description: to deposit as a thin film, making it the ideal choice for most non-critical applications. The aluminum is over coated with a single layer of MgF2 to make it considerably more durable than bare aluminum. There are three degrees of flatness: l/4, l/10 and l/20. The l/4 and l/10 mirrors

• Mirror Materials: BK7 Glass
• Mirror Types: Flat Mirror, Laser Mirror

Description: Magnesium Fluoride crystal is used as a lens, prism and window for wavelength from 110nm to 7.5µm.The MgF2 magnesium fluoride window can penetrate well through the VUV region to 121nm and beyond.Magnesium fluoride is mainly used in UV spectra and has good applications for excimer

• Mirror Materials: Other Mirror Material
• Surface Quality: 10-5 Scratch / Dig

Description: Damage threshold H8 > 1.5 J/cm2 at 1064 nm with 11 ns laser pulses (s-on-1) at 10 Hz 1) Definition: A low expansion material is a glass with nd = 1.47 and a coefficient of expansion a20 - 300 °C = 3

• Diameter/Width: 10 to 63 mm
• Mirror Coatings: Silver
• Mirror Shape: Round
• Mirror Types: Laser Mirror

Description: Damage threshold H8 > 1.5 J/cm2 at 1064 nm with 11 ns laser pulses (s-on-1) at 10 Hz 1) Definition: A low expansion material is a glass with nd = 1.47 and a coefficient of expansion a20 - 300 °C = 3

• Diameter/Width: 22.4 mm
• Mirror Coatings: Silver
• Mirror Shape: Elliptical
• Mirror Types: Laser Mirror

Description: Damage threshold H8 > 1.5 J/cm2 at 1064 nm with 11 ns laser pulses (s-on-1) at 10 Hz 1) Definition: A low expansion material is a glass with nd = 1.47 and a coefficient of expansion a20 - 300 °C = 3

• Diameter/Width: 10 to 60 mm
• Mirror Coatings: Silver
• Mirror Shape: Rectangular / Square
• Mirror Types: Laser Mirror

Description: suppressing the spread of the pulse width produced by a plurality of reflecting mirrors. —¦There are three types available, FLM1standard, FLM2 wide wavelength band, and high strength laser FLMHP*. —¦These mirrors are designed and produced for usage within the microscopy

• Diameter/Width: 12.7 to 30 mm
• Mirror Coatings: Dielectric
• Mirror Materials: BK7 Glass
• Mirror Shape: Round

Description: . Application: laser galvanometer, suitable for yaj laser assembly, CO2 laser can be used in a variety of industrial applications, such as laser marking, laser drilling, laser welding.

• Materials: BK7 Glass, Specialty / Other
• Surface Quality: 20-10 Scratch / Dig

Description: ) Mirrors for ultra-fast lasers are also available. The mirror substrates are made from UV Fused Silica sourced from Corning. The glass material is fabricated using SiO2 with few inclusions. UV Fused Silica is known for its superior optical properties, in addition to high

• Mirror Types: Laser Mirror
• Surface Quality: 10-5 Scratch / Dig

Description: Shanghai Optics is a custom optics manufacturer with over 55 years of optics manufacturing experience. We produce high precision Broadband Dielectric Mirrors according to customer’s specifications. These mirrors have the same exceptional specifications as our laser

• Mirror Coatings: Dielectric
• Mirror Materials: BK7 Glass
• Mirror Types: Flat Mirror, Laser Mirror

Description: %. Hot, cold, backside polished, ultrafast, D-shaped, elliptical, parabolic, concave, and laser line dielectric coated mirrors are available for more specialized applications.

• Diameter/Width: 12.7 to 50.8 mm
• Incidence: 0º Incidence, 45º Incidence
• Mirror Coatings: Protected Gold, Silver
• Mirror Materials: Fused Silica, UV Grade Fused Silica

Description: used in Laser technology applications. 2.1?What is Dichroic Mirrors? The dichroic mirror is a mirror with significantly different reflection or transmission properties at two different wavelengths, it’s characterized by almost complete transmission of light at

• Incidence: 0º Incidence, 45º Incidence
• Mirror Coatings: Other Mirror Coating
• Mirror Materials: BK7 Glass, Fused Silica, Pyrex?
• Surface Flatness: ?/8, Other

Description: general purpose visible range mirror. Silver has a very high reflectance over the visible and near infra-red range and gold is the preferred coating for infra-red applications at wavelengths greater than 2 microns. Key Features High reflectance over a broad spectral range

• Mirror Coatings: Bare Aluminum, Dielectric, Silver
• Mirror Materials: BK7 Glass
• Mirror Types: Flat Mirror, Laser Mirror

Description: laser applications. Laser Line Mirrors are Optical Mirrors that have been designed for specific laser types or wavelengths. 3.2. What are the key features of Laser Mirror? HG OPTRONICS can produce the laser mirror with the

• Incidence: 0º Incidence, 45º Incidence
• Mirror Coatings: Other Mirror Coating
• Mirror Materials: BK7 Glass, Fused Silica, Pyrex?
• Surface Flatness: ?/8, Other

Description: Phase Retarding Mirrors are designed to produce a specific phase shift between the S and P polarization components of an incident CO2 laser beam. Mirrors designed for zero phase shift maintain the incident polarization state in the reflected beam. Mirrors

• Mirror Materials: Copper, Other Mirror Material
• Mirror Shape: Round
• Mirror Types: Flat Mirror
• Surface Flatness: ?/20, Other

Description: The 10D20RM.2 Laser Line Dielectric mirror is a highly efficient reflector optimized for the 325 nm wavelength. This 1 inch (25.4 mm) diameter mirror is made from a 6.0 mm thick Borofloat® 33 substrate. Borofloat has low thermal expansion and is an excellent substrate for

• Diameter/Width: 25.4 mm
• Incidence: 0º Incidence, 45º Incidence
• Mirror Coatings: Dielectric, Other Mirror Coating
• Mirror Materials: Other Mirror Material

Description: . Laser Damage Threshold: >2J/cm2, 8 ns pulse, 1064 nm typical for BK7 substrates; >5J/cm2 8 ns pulse, 1064 nm typical for UVFS substrates Back side antireflection coated: R<0.5% Parallelism: 30 arcsec

• Diameter/Width: 12.7 to 25.4 mm
• Incidence: 0º Incidence, 45º Incidence
• Mirror Materials: BK7 Glass, UV Grade Fused Silica
• Surface Flatness: λ/10

Description: a broad spectrum of light, such as the entire visible range or the spectrum of the Ti-sapphire laser. Mirrors of this type are very common in optics experiments, due to improved techniques that allow inexpensive manufacture of high-quality mirrors. Examples of their applications

• Mirror Coatings: Other Mirror Coating
• Mirror Materials: BK7 Glass, Fused Silica, Other Mirror Material
• Mirror Shape: Other
• Mirror Types: Flat Mirror, Spherical Mirror, Other

Description: ) Mirrors for ultra-fast lasers are also available. The mirror substrates are made from UV Fused Silica sourced from Corning. The glass material is fabricated using SiO2 with few inclusions. UV Fused Silica is known for its superior optical properties, in addition to high

• Diameter/Width: 12.7 mm
• Incidence: 0º Incidence
• Mirror Materials: Other Mirror Material
• Surface Flatness: ?/10

Description: ) Mirrors for ultra-fast lasers are also available. The mirror substrates are made from UV Fused Silica sourced from Corning. The glass material is fabricated using SiO2 with few inclusions. UV Fused Silica is known for its superior optical properties, in addition to high

• Diameter/Width: 50.8 mm
• Mirror Materials: Other Mirror Material
• Surface Flatness: ?/10
• Surface Quality: 10-5 Scratch / Dig

Description: >99% Reflectivity from 700 - 1100nm Damage Threshold 0.3kW/cm2 CW Designed for Ti:Sapphire Lasers TECHSPEC® Broadband Ti:Sapphire Laser Mirrors are designed to offer high reflection of Ti:Sapphire laser wavelengths. Designed for a 0°

• Diameter/Width: 50 mm
• Incidence: 45º Incidence
• Mirror Materials: Fused Silica
• Surface Flatness: λ/10

Description: >99% Reflectivity from 700 - 1100nm Damage Threshold 0.3kW/cm2 CW Designed for Ti:Sapphire Lasers TECHSPEC® Broadband Ti:Sapphire Laser Mirrors are designed to offer high reflection of Ti:Sapphire laser wavelengths. Designed for a 0°

• Diameter/Width: 25 mm
• Incidence: 0º Incidence
• Mirror Materials: Fused Silica
• Surface Flatness: λ/10

Description: >99% Reflectivity from 700 - 1100nm Damage Threshold 0.3kW/cm2 CW Designed for Ti:Sapphire Lasers TECHSPEC® Broadband Ti:Sapphire Laser Mirrors are designed to offer high reflection of Ti:Sapphire laser wavelengths. Designed for a 0°

• Diameter/Width: 12.5 mm
• Incidence: 0º Incidence
• Mirror Materials: Fused Silica
• Surface Flatness: λ/10

Description: >99% Reflectivity from 700 - 1100nm Damage Threshold 0.3kW/cm2 CW Designed for Ti:Sapphire Lasers TECHSPEC® Broadband Ti:Sapphire Laser Mirrors are designed to offer high reflection of Ti:Sapphire laser wavelengths. Designed for a 0°

• Diameter/Width: 50 mm
• Incidence: 0º Incidence
• Mirror Materials: Fused Silica
• Surface Flatness: λ/10

Description: The 05D20DM.11 Laser Line Dielectric mirror is a highly efficient reflector optimized for the 532 nm wavelength. This 1/2 inch (12.7 mm) diameter mirror is made from a 3.1 mm thick Borofloat® 33 substrate. Borofloat has low thermal expansion and is an excellent substrate

• Diameter/Width: 12.7 mm
• Incidence: 0º Incidence, 45º Incidence
• Mirror Coatings: Dielectric, Other Mirror Coating
• Mirror Materials: Other Mirror Material

Description: ) Mirrors for ultra-fast lasers are also available. The mirror substrates are made from UV Fused Silica sourced from Corning. The glass material is fabricated using SiO2 with few inclusions. UV Fused Silica is known for its superior optical properties, in addition to high

• Diameter/Width: 25.4 mm
• Incidence: 0º Incidence
• Mirror Materials: Other Mirror Material
• Surface Flatness: ?/10