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Supplier: Spectral Optics
Description: Spectral Optics provide high-quality dielectric coated laser mirrors for use with high power/energy and or ultra-fast lasers from UV to IR spectral ranges. Most dielectric coated laser mirrors that Spectral Optics provide guarantee the state of art damage threshold
- Diameter/Width: 12.7 to 50.8 mm
- Incidence: 0º Incidence, 45º Incidence
- Mirror Materials: BK7 Glass, UV Grade Fused Silica
- Surface Flatness: λ/10
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Supplier: Artifex Engineering
Description: The reflecting surface of our Metal Mirrors is a thin coating of silver, gold or aluminum on glass. We provide flat, concave and convex mirrors.
- Diameter/Width: 10 to 105 mm
- Mirror Coatings: Uncoated, Protected Aluminum, Protected Gold, Silver
- Mirror Materials: BK7 Glass, Fused Silica
- Surface Flatness: λ/5, λ/10
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Supplier: OptoSigma Corp.
Description: Laser Line Mirrors are total reflection mirrors, multi-layer-coated with dielectrics of different refractive index by turns on. [Narrowband] Laser line mirrors that are focused on specific wavelengths. Incident angle is 45°. —¦Dielectric multi-layer coating
- Diameter/Width: 10 to 40 mm
- Mirror Coatings: Dielectric
- Mirror Shape: Round
- Mirror Types: Flat Mirror, Laser Mirror
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Supplier: OptoSigma Corp.
Description: Laser Line Mirrors are total reflection mirrors, multi-layer-coated with dielectrics of different refractive index by turns on. [Broadband] Multi line mirrors with broad reflection bands. Incident angle is 45°. —¦Dielectric multi-layer coating does not have
- Diameter/Width: 25.4 to 50 mm
- Mirror Coatings: Dielectric
- Mirror Shape: Round
- Mirror Types: Flat Mirror, Laser Mirror
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Supplier: HG Optronics, Inc.
Description: Laser mirrors are fabricated with specialized coatings, which will offer high damage thresholds. 5.1?What are Laser Mirrors? Laser mirrors are fabricated with specialized coatings, which will offer high damage thresholds. 5.2?What are Laser
- Mirror Shape: Round
- Mirror Types: Laser Mirror
- Surface Quality: 40-20 Scratch / Dig
- Wavelength Range: 351 to 1550 nm
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Supplier: Rocky Mountain Instrument/RMI Laser
Description: Mirrors are used in a wide range of beam steering, focusing and collimating applications. RMAX Mirrors utilize multi-layer, dielectric thin films. Laser-Line RMAX Mirrors are designed for high reflectance at a single laser wavelength. High power coating designs are
- Incidence: 0º Incidence, 45º Incidence
- Mirror Materials: BK7 Glass, Fused Silica, UV Grade Fused Silica, Other Mirror Material
- Surface Flatness: ?/4, ?/20, Other
- Surface Quality: 10-5 Scratch / Dig, 20-10 Scratch / Dig, 40-20 Scratch / Dig
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Supplier: OptoSigma Corp.
Description: Laser Line Mirrors are total reflection mirrors, multi-layer-coated with dielectrics of different refractive index by turns on. [Narrowband] Laser line mirrors that are focused on specific wavelengths. Incident angle is 45°. —¦Dielectric multi-layer coating
- Diameter/Width: 12.7 to 50.8 mm
- Incidence: 45º Incidence
- Mirror Coatings: Dielectric
- Mirror Materials: BK7 Glass
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Supplier: Shimadzu Corporation
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 achieved for
- Diameter/Width: 12.7 to 127 mm
- Incidence: 0º Incidence, 45º Incidence
- Mirror Materials: Other Mirror Material
- Surface Flatness: ?/10
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Supplier: Rainbow Research Optics, Inc.
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 Diode
- 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
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Supplier: UNI OPTICS(Fujian) Co., Ltd
Description: Laser mirrors are fabricated with specialized coatings, which will offer high damage thresholds.
- Mirror Materials: BK7 Glass, Fused Silica
- Mirror Shape: Round, Rectangular / Square
- Mirror Types: Flat Mirror
- Surface Quality: 10-5 Scratch / Dig
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Supplier: Qioptiq
Description: Front surface gold mirror gold for the IR spectral range up to 25 µm Resistant against environmental influences Constant high reflection within a broad spectral and angle-of-incidence range without absorption bands Average reflection > 98 % in the range
- Diameter/Width: 12.7 to 50 mm
- Mirror Coatings: Protected Gold
- Mirror Shape: Round
- Mirror Types: Laser Mirror
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Supplier: EKSMA OPTICS
Description: Laser line mirrors are dielectric reflectors with an optimized performance at stated laser wavelengths. Our laser mirrors are made from quartz and coated with multilayer dielectric or IBS coating. High polishing quality of the mirror substartes is also
- Diameter/Width: 12.7 to 76.2 mm
- Incidence: 0º Incidence, 45º Incidence
- Mirror Coatings: Dielectric
- Mirror Materials: UV Grade Fused Silica
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Supplier: EKSMA OPTICS
Description: Laser Line Mirrors are dielectric reflectors with optimised performance at stated laser wavelengths. Dual band laser mirrors are offered for applications where reflection of two laser lines is needed. Our laser mirrors are made from BK7 or
- Diameter/Width: 12.7 to 76.2 mm
- Incidence: 0º Incidence, 45º Incidence
- Mirror Coatings: Dielectric
- Mirror Materials: BK7 Glass, UV Grade Fused Silica
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Supplier: Qioptiq
Description: For ultrafast Ti:Sapphire and fiber lasers, LINOS offers a line of dispersion-free mirrors that offer both broadband reflectivity and high laser-damage thresholds. These laser mirrors are ion beam sputtered; thus the coatings are dense, easy to clean and
- Diameter/Width: 25.4 mm
- Mirror Shape: Round
- Mirror Types: Laser Mirror
- Surface Flatness: ?/10
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Supplier: UNI OPTICS(Fujian) Co., Ltd
Description: Laser Line Mirrors are used for beam-steering in demanding laser applications. Laser Line Mirrors are Optical Mirrors that have been designed for specific laser types or wavelengths.
- Mirror Materials: BK7 Glass
- Mirror Shape: Round, Rectangular / Square
- Mirror Types: Flat Mirror
- Surface Flatness: ?/8
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Supplier: EKSMA OPTICS
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
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Supplier: Changchun Sunday Optics Co., Ltd.
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 lasers
- Mirror Materials: Other Mirror Material
- Surface Quality: 10-5 Scratch / Dig
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Supplier: Thorlabs, Inc.
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
- Mirror Materials: Copper, Fused Silica
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Supplier: Shanghai Optics
Description: Shanghai Optics is a custom optics manufacturer with over 55 years of optics manufacturing experience. We produce high precision Metalized Mirrors according to customers’ specifications. Aluminum has a high reflectance over the entire visible and near infrared spectrum. It is simple
- Mirror Materials: BK7 Glass
- Mirror Types: Flat Mirror, Laser Mirror
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Supplier: Electro Optical Components, Inc.
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
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Supplier: OptoSigma Corp.
Description: All dielectric designs are much more resistant to laser damage than typical mirrors and are suitable for use with high power laser systems. —¦All Dielectric Mirrors for High Power Laser are manufactured using dielectric multi-layer coatings of alternating high and
- Diameter/Width: 25.4 to 50 mm
- Mirror Coatings: Dielectric
- Mirror Materials: BK7 Glass
- Mirror Shape: Round
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Supplier: Qioptiq
Description: Front surface rectangular mirrors Low expansion material1) Highest reflectance for 450 nm to 12 µm wavelength Equal reflectance without absorption bandAngle of incidence from 0° to 60° Resistant against environmental influences
- Diameter/Width: 10 to 63 mm
- Mirror Coatings: Silver
- Mirror Shape: Round
- Mirror Types: Laser Mirror
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Supplier: Qioptiq
Description: Front surface rectangular mirrors Low expansion material1) Highest reflectance for 450 nm to 12 µm wavelength Equal reflectance without absorption band Angle of incidence from 0° to 60° Resistant against environmental
- Diameter/Width: 22.4 mm
- Mirror Coatings: Silver
- Mirror Shape: Elliptical
- Mirror Types: Laser Mirror
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Supplier: Electro Optical Components, Inc.
Description: Flat mirrors find wide uses in industrial laser systems, as well as medical, scientific and research applications. Copper based mirrors in particular provide a rugged and durable mirror with good reflectivity across a broad spectrum of the infrared. Our electroplated gold
- Mirror Materials: Copper, Fused Silica, Other Mirror Material
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Supplier: Cambridge Technology, Inc.
Description: The Galvo motor selection begins with the component that is closest to your application, the mirror. Considerations such as wavelength, power, beam diameter and spot size will dictate the best mirror for your application. Low inertia is essential for beam-steering mirrors to
- Mirror Coatings: Uncoated, Bare Aluminum, Dielectric, Bare Gold, Silver
- Mirror Materials: BK7 Glass, Fused Silica, Other Mirror Material
- Mirror Shape: Round, Rectangular / Square
- Mirror Types: Flat Mirror
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Supplier: Daheng New Epoch Technology, Inc.
Description: These laser line mirrors are designed for high reflectance with high laser damage threshold at specific laser wavelengths, suitable for laser cavities or other laser grade substrates using physical vapor deposition (PVD) technologies. These coatings are
- Diameter/Width: 20 to 40 mm
- Mirror Coatings: Dielectric
- Mirror Materials: BK7 Glass
- Surface Flatness: λ/8
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Supplier: EKSMA OPTICS
Description: Laser line mirrors are dielectric reflectors with an optimized performance at stated laser wavelengths. In this section we present laser mirrors made from BK7 glass and coated with a multilayer dielectric or IBS coating. High polishing quality of the mirror
- Diameter/Width: 12.7 to 76.2 mm
- Incidence: 0º Incidence, 45º Incidence
- Mirror Coatings: Dielectric
- Mirror Materials: BK7 Glass
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Supplier: ECOPTIK (CHANGCHUN) LTD
Description: The scanning mirror applications include ultra-high dynamic, low inertia scanning mirrors for laser processing, streak cameras, LIDAR, security, sensing and targeting applications, where the enhanced flexural strength, homogeneity, high resonant frequencies, ultra-low inertia,
- Mirror Coatings: Other Mirror Coating
- Mirror Materials: BK7 Glass, Fused Silica, Other Mirror Material
- Surface Flatness: ?/4, ?/10
- Surface Quality: 10-5 Scratch / Dig, 20-10 Scratch / Dig
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Supplier: Shanghai Optics
Description: , off-axis elliptical (OAE) mirrors, freeform surface mirrors, and other precision metal optical components. Off-axis focusing mirrors are aberration-free across a broadband wavelength range, making them ideal for use in instrumentation and laser systems. Shanghai Optics
- Mirror Materials: Copper
- Mirror Types: Flat Mirror, Laser Mirror
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Supplier: Newport Corporation
Description: These laser line mirrors are highly efficient reflectors optimized for a narrow wavelength range. Each achieves greater than 99% reflectance, from 0-45° angle of incidence, for any polarization. The Zerodur substrate offers a nominally zero thermal expansion. High efficiency
- Diameter/Width: 25.4 to 203 mm
- Mirror Coatings: Dielectric
- Mirror Materials: Zerodur?
- Mirror Shape: Round
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Description: . ICC has extensive experience in providing optical Windows, spherical lenses, cylindrical lenses, scanning mirrors, prisms and beam splitters for laser optical systems. These optical devices have been widely used in F-Theta lenses, collimators, rangefinders, beam amplifiers, scanning
- Materials: BK7 Glass, Specialty / Other
- Surface Quality: 20-10 Scratch / Dig
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Supplier: Newport Corporation
Description: Designed for the most demanding UV applications, our high-energy excimer laser mirrors have low loss dielectric coatings to minimize scatter and maximize reflected energy. High reflectivity dielectric coatings High damage threshold Common Excimer wavelengths
- Diameter/Width: 25.4 to 50.8 mm
- Incidence: 0º Incidence
- Mirror Coatings: Dielectric
- Mirror Materials: UV Grade Fused Silica
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Supplier: Newport Corporation
Description: Elliptical laser line mirrors are designed to provide a circular profile when used for 45 degree ND:YAG beam routing applications. High efficiency 532 nm & 1064 nm reflectivity Rs, Rp>99% at a laser line Durable dielectric coatings Borofloat®33
- Incidence: 0º Incidence, 45º Incidence
- Mirror Coatings: Dielectric
- Mirror Materials: Other Mirror Material
- Surface Flatness: ?/10
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Supplier: Edmund Optics Inc.
Description: Over 95% Reflectance of Visible Laser Diode Light Ideal for Multiple Reflection Systems Coating Optimized for 633nm at 45° AOI These Visible Laser Diode Mirrors are specially coated to attain maximum reflection of visible laser diodes. Optimized for 633
- Diameter/Width: 20 mm
- Mirror Shape: Round
- Mirror Types: Laser Mirror
- Surface Quality: 80-50 Scratch / Dig
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Supplier: Edmund Optics Inc.
Description: Over 95% Reflectance of Visible Laser Diode Light Ideal for Multiple Reflection Systems Coating Optimized for 633nm at 45° AOI These Visible Laser Diode Mirrors are specially coated to attain maximum reflection of visible laser diodes. Optimized for 633
- Diameter/Width: 10 mm
- Mirror Shape: Round
- Mirror Types: Laser Mirror
- Surface Quality: 80-50 Scratch / Dig
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Supplier: Edmund Optics Inc.
Description: Over 95% Reflectance of Visible Laser Diode Light Ideal for Multiple Reflection Systems Coating Optimized for 633nm at 45° AOI These Visible Laser Diode Mirrors are specially coated to attain maximum reflection of visible laser diodes. Optimized for 633
- Diameter/Width: 12.5 mm
- Mirror Shape: Round
- Mirror Types: Laser Mirror
- Surface Quality: 80-50 Scratch / Dig
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Supplier: Edmund Optics Inc.
Description: Over 95% Reflectance of Visible Laser Diode Light Ideal for Multiple Reflection Systems Coating Optimized for 633nm at 45° AOI These Visible Laser Diode Mirrors are specially coated to attain maximum reflection of visible laser diodes. Optimized for 633
- Diameter/Width: 25 mm
- Mirror Shape: Round
- Mirror Types: Laser Mirror
- Surface Quality: 80-50 Scratch / Dig
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Supplier: Newport Corporation
Description: These laser line mirrors are highly efficient reflectors optimized for a narrow wavelength range. Each achieves greater than 99% reflectance, from 0-45° angle of incidence, for any polarization. The Borofloat® 33 substrate offers offers low thermal expansion, and high thermal shock
- Diameter/Width: 12.7 to 152 mm
- Incidence: 0º Incidence, 45º Incidence
- Mirror Coatings: Dielectric
- Mirror Materials: Other Mirror Material
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Description: Features: • Stocked and custom mirrors available • Made of Corning UV grade Fused Silica • High Flatness ?/10 • High SQ: 10/5 S/D • Wide angle of Incidence(AOI): 0-45 Shalom EO’s UV Fused Silica Laser Line
- Mirror Types: Laser Mirror
- Surface Quality: 10-5 Scratch / Dig
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Supplier: Rocky Mountain Instrument/RMI Laser
Description: Mirrors are used in a wide range of beam steering, focusing, and collimating applications. Metal Mirrors are intended for applications involving lower power lasers or broadband sources. They are less sensitive to wavelength, polarization and angle of incidence than dielectric
- Mirror Coatings: Uncoated
- Mirror Materials: Copper, Other Mirror Material
- Mirror Shape: Round
- Mirror Types: Flat Mirror, Other
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Supplier: Zygo Corporation
Description: Beamsplitters and fold mirrors are used to split light from the laser into multiple paths, one for each interferometer. All beamsplitters and fold mirrors are available in vacuum compatible versions.
- Mirror Materials: Fused Silica, Other Mirror Material
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Supplier: Daheng New Epoch Technology, Inc.
Description: ND:YAG Laser Line UV Dielectric HR
- Diameter/Width: 25 mm
- Incidence: 45º Incidence
- Mirror Coatings: Dielectric
- Mirror Materials: UV Grade Fused Silica
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Supplier: Daheng New Epoch Technology, Inc.
Description: For High Power Argon-Ion Lasers
- Diameter/Width: 25.4 mm
- Incidence: 45º Incidence
- Mirror Materials: UV Grade Fused Silica
- Surface Flatness: λ/10
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Supplier: Shanghai Optics
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
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Supplier: Thorlabs, Inc.
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
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Supplier: HG Optronics, Inc.
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
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Supplier: ECOPTIK (CHANGCHUN) LTD
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
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Featured Products Top
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The Nd:YAG laser mirrors are designed for the fundamental, 2 harmonic, 3 harmonic and 4 harmonic of Nd:YAG lasers. They are intended for use at either 45° or normal incidence. We also offer dual wavelength mirrors for use at the fundamental and second harmonic (read more)
Browse Optical Mirrors Datasheets for Daheng New Epoch Technology, Inc. -
When it comes to achieving optimal performance in laser systems, having the right optical components can make all the difference. Daheng Optics is proud to introduce our state-of-the-art Broadband Laser Mirrors, designed to meet the demands of cutting-edge laser applications. These mirrors offer (read more)
Browse Optical Mirrors Datasheets for Daheng New Epoch Technology, Inc. -
Key Features: Precision-manufactured for controlled divergence of laser beams High-quality optical material for minimal light distortion and accurate reflection Customizable dimensions to fit specific particle counting systems Compatible with various (read more)
Browse Optical Lenses Datasheets for Suzhou Jiujon Optics Co., Ltd -
Enhance Laser Performance with GCCH-1041 Broadband Laser Mirrors The Ultimate Reflective Solution Daheng Optics presents the GCCH-1041 Broadband Laser Mirrors, a testament to cutting-edge optical technology. Crafted from UV grade Fused Silica (read more)
Browse Parabolic Mirrors Datasheets for Daheng New Epoch Technology, Inc. -
. • Versatile Options: Available in various specifications including different wavelength ranges, diameters, and thicknesses, catering to diverse application needs. These Femtoline low GDD mirrors are the ideal choice for constructing high-performance femtosecond laser systems. Contact us now to customize the perfect solution for your requirements. (read more)
Browse Laser Optics, Heads, and Beam Delivery Components Datasheets for Hangzhou Shalom Electro-optics Technology Co., Ltd. -
/D Parallelism:<3′ Partial and high reflectivity optical mirrors are available upon custom request High laser damage threshold CASTECH offers a large comprehensive selection of optical mirrors for use with light in DUV to IR spectral (read more)
Browse Optical Mirrors Datasheets for CASTECH, Inc. -
-engineered substrate for optical accuracy and stability Applications: Spectroscopy and hyperspectral imaging Laser systems for research, medical, and industrial applications Aerospace and defense optical systems Scientific (read more)
Browse Optical Mirrors Datasheets for Suzhou Jiujon Optics Co., Ltd -
Mirror is the item which reflects the laser beams. The components to be considered in particular are size and coating, and both of them are selected according to the laser specifications. The size of the mirror is selected according to the size of the laser beam (diameter of laser beam (read more)
Browse Galvanometer Optical Scanners Datasheets for Citizen Chiba Precision Co., Ltd. -
exceptional reflectivity at designated wavelengths, ensuring optimized performance in laser systems, spectroscopy, and related fields. Minimized Losses: Engineered to minimize optical losses, dielectric mirrors improve system efficiency and accuracy. Precision (read more)
Browse Optical Windows Datasheets for Suzhou Jiujon Optics Co., Ltd -
A High Reflectivity Mirror for Laser Applications A high reflectivity mirror, also known as a supermirror, is a dielectric mirror that has been carefully designed to provide optimal reflectivity while minimizing any scatter and absorption effects. With reflectivity ranging (read more)
Browse Optical Mirrors Datasheets for Shanghai Optics
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Laser Optics
in sensitive laser applications, especially for laser mirrors and prisms. Optical losses must be minimized. Components must have high laser damage thresholds, especially if they are to be used with high-energy pulsed lasers such as Q-switched high power lasers.
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Rapid Scanning Applications Drive Mirror Design (.pdf)
called "M Cubed". Mr. Brown recently published an article on this topic in the technology section of Laser Focus World where he detailed the important mirror design considerations in order to achieve the best scanning performance.
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Fundamentals of Lasers
The basic structure of any laser is based on an active medium (either a gas or semiconductor) contained between two reflectors. A laser's reflectors contain light by oscillating it through a medium repeatedly allowing the energy to build up with each pass. Laser radiation escapes due to a partially
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High-Speed Deformable Mirror for Laser Beam Focus Control in Cutting & Welding Applications
Piezo driven laser focus shifter module advances speed and quality in laser machining applications
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Why Fast Steering Mirrors are used in Laser Communication / Free Space Optical Communication
High Precision Tip/Tilt Mechanisms Keep Laser Beams Stabilized and Precisely on Target
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Miniaturized fluorescence detection system to remove background noise of the incident light using micro mirror and lens
Miniaturized fluorescence detection system to remove background noise of the incident light using micro mirror and lens. Jun Moon Janga, Hyun .... green (532nm) pumped laser diode (Worldstar Tech.)
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How does the laser process work?
The laser cutting process uses a focused laser beam and assist gas to sever metallic plate with high accuracy and exceptional process reliability. The laser beam is generated by a resonator, and delivered through the cutting nozzle via a system of mirrors.
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Laser Engraving of ID Cards(.pdf)
In laser card marking, the pulsed energy produced by a laser is applied to the plastic (e.g., polycarbonate) card creating characters, images and even photographs via a set steering mirrors and/or a translation stage. The transferred laser energy heats or carbonizes the card material. If the pulse
More Information Top
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Springer Handbook of Lasers and Optics
The strong absorption band at 9 μm makes it unsuit- able for CO2 laser transmission applications, but it is frequently used for laser mirrors because of its high thermal conductivity and low density.
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Diode Lasers and Photonic Integrated Circuits
A distributed Bragg reflector (DBR) laser can be formed by replacing one or both of the discrete laser mirrors with a passive grating reflector.
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Springer Handbook of Lasers and Optics
The strong absorption band at 9 µm makes it unsuit- able for CO2 laser transmission applications, but it is frequently used for laser mirrors because of its high ther- mal conductivity and low density.
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Photonics
laser mirror .
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Solid-State Laser Engineering
The unstable resonator corresponds to a divergent periodic focusing system, whereby the beam expands on repeated bounces to fill the entire cross-section of at least one of the laser mirrors .
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Semiconductor Lasers
On the other hand, large enhancement factors are obtained when one of the laser mirrors is coated for antireflection, as is often the case.
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Thermal Shock: Catastrophic Damage To Transmassive Optical Components In High Power Continous Wave And Repetitive Pulsed Laser Environment
Palmer J. R, and Bennett, H. E., "Relationship Between Coating Defects And The Limiting Flux Density A Cooled Laser Mirror Can Withstand" Laserinduced Damage In Optical Materials- 1981 NBS Spec. Pub.
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Optical Coherence Tomography
Standard high-reflectance laser mirrors typically consist of quarter-wave stacks (cf. Fig. 19.1) and therefore are limited in the maximum reflectance which is given by the BRAGG wavelength lB that is twice the optical thickness of the unit cell defining …