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Specialty Mirrors

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Cailabs Canunda-Axicons Cailabs Canunda Reflective Axicons Clearance
  • High-Power Bessel Beam Generation via Reflective Design
  • Eliminates Chromatic Dispersion for Ultrafast Laser Applications
  • Multiple Axicon Angles and Coating Options Available
  • Includes Manufacturer's Certificate of Specification Conformity
Optotune Fast Steering Mirror, Protected Silver Coated Optotune Fast Steering Mirrors
  • ±50° of Optical Scanning
  • Protected Gold or Silver, and VIS Dielectric Coated Mirror Options
  • Compact 45mm Diameter Housing Footprint
  • Control via USB, SPI, or Analog Input
Nd:YAG Laser Output Couplers Nd:YAG Laser Output Couplers
TECHSPEC® components are designed, specified, or manufactured by Edmund Optics. Learn More
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  • Designs for 532nm and 1064nm Nd:YAG Lasers
  • 80% Reflectivity at Nd:YAG DWL
  • UV Fused Silica Substrates
Broadband Dielectric Stemmed Mirrors Broadband Dielectric Stemmed Mirrors
TECHSPEC® components are designed, specified, or manufactured by Edmund Optics. Learn More
  • Stemmed Design Reduces Stress on Mirror Surface when Mounted by Stem
  • >99% Average Reflectivity Over Broad Wavelength Ranges
  • 20-10 Surface Quality and 0 - 45° Angle of Incidence
  • TECHSPEC® Laser and Metallic Coated Stemmed Mirrors Also Available
Metallic Coated Stemmed Mirrors Metallic Coated Stemmed Mirrors
TECHSPEC® components are designed, specified, or manufactured by Edmund Optics. Learn More
  • Stemmed Design Reduces Stress on Mirror Surface when Mounted by Stem
  • Durable Fused Silica Construction for Low Coefficient of Thermal Expansion
  • Enhanced Aluminum, Protected Gold, and Protected Silver Coatings
  • TECHSPEC® Laser and Broadband Dielectric Stemmed Mirrors Also Available
Cold Mirrors Cold Mirrors
  • 0° and 45° Angle of Incidence Options Available
  • Reflects 90% of Visible Light
  • Transmits 80% of the NIR and IR
Hot Mirrors Hot Mirrors
  • Ideal for Reducing Heat
  • Reflects >90% of the NIR and IR
  • Transmits >85% of Visible Light
Knife-Edge Pickoff Mirrors Knife-Edge Pickoff Mirrors
TECHSPEC® components are designed, specified, or manufactured by Edmund Optics. Learn More
  • Designed to Separate Two Beams Propagating Closely Next to Each Other
  • 45° Bevel 
  • Coating Aperture Up to the Knife-Edge
  • Enhanced Aluminum, Protected Gold and Protected Silver Coating Options
Extended Hot Mirrors Extended Hot Mirrors
  • Improved NIR Reflectance Over Standard Hot Mirrors
  • Operating Temperatures up to 230°C
  • Neutral Color for 5500K or 3200K Sources to ±250K
High Performance Hot Mirrors High Performance Hot Mirrors
TECHSPEC® components are designed, specified, or manufactured by Edmund Optics. Learn More
  • High Transmission from 400 - 690nm
  • High Reflection from 750 - 1125nm
  • Ideal for Minimizing Heat Build-Up
UV Hot Mirrors UV Hot Mirrors
  • Transmits 80% of UV and Visible Light
  • Reflects 70% of IR Light
  • Contact Us for Custom Sizes
High Performance Cold Mirrors High Performance Cold Mirrors
TECHSPEC® components are designed, specified, or manufactured by Edmund Optics. Learn More
  • >95% Reflection from 400 - 690nm
  • >90% Transmission from 750 - 1200nm
  • Optimized for 0° or 45° Angle of Incidence
Convex Mirrors Convex Mirrors
TECHSPEC® components are designed, specified, or manufactured by Edmund Optics. Learn More
  • Precision Polished Surface
  • λ/2 Surface Accuracy
  • Variety of Coating Options Offered
Convex Spherical Mirrors Convex Spherical Mirrors
  • Variety of Diameters and Focal Lengths Available
  • Enhanced Aluminum and Protected Gold Coatings
  • Ideal for Imaging Systems
45° Rod Mirrors 45° Rod Mirrors
TECHSPEC® components are designed, specified, or manufactured by Edmund Optics. Learn More
  • Coated and Uncoated Versions Available
  • Use Coated Versions to Reflect Light at 90°
  • Use Uncoated Versions to Bend Image Paths
Cone Mirrors Cone Mirrors
TECHSPEC® components are designed, specified, or manufactured by Edmund Optics. Learn More
  • Ideal for 360° Applications
  • ±6 Arcmin Apex Angle Tolerance
  • Protected Aluminum Coating
90° Specialty Mirrors 90° Specialty Mirrors
TECHSPEC® components are designed, specified, or manufactured by Edmund Optics. Learn More
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  • Splits Input Image Into Two Paths Separated by 180°
  • Variety of Sizes and Broadband Coatings Available
  • Additional Right Angle Prism Options Available
Schwarz Mirrors Schwarz Mirrors Clearance
  • Engineered Highly- Absorptive Fused Silica Substrate
  • Optical Density > 7.0 in Visible Spectrum
  • >98% Visible Reflectivity with No Residual Transmission
  • Damage Threshold > 0.5J/cm2, 20ns, 20Hz @ 532nm
  • Designed for all Polarization States from 0 - 45° AOI
Optotune Fine Steering Mirrors Optotune Fine Steering Mirrors
  • Milliradian (mrad) Beam Steering Range With µrad Resolution
  • Metallic or Dielectric Coatings for Low to High Power Lasers
  • Ideal for Laser Wobbling Applications
Broadband Dielectric 90° Specialty Mirrors Broadband Dielectric 90° Specialty Mirrors
TECHSPEC® components are designed, specified, or manufactured by Edmund Optics. Learn More
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View all Resources Related to Specialty Mirrors  

Specialty Mirrors are a unique subject of Optical Mirrors that are designed to offer a solution to many of the problems faced when using traditional Optical Mirrors, such as space limitations or wavefront manipulation. Edmund Optics offers a range of Specialty Mirrors to be used in a variety of applications or industries, such as illumination, imaging, or microscopy. Edmund Optics’ Specialty Mirrors include deformable mirrors, rod or cone mirrors, right angle prism mirrors, or convex spherical mirrors.

Deformable Mirrors, which modify their surface profile to best reflect incoming light, are used for wavefront manipulation or system enhancement applications. Deformable mirrors are ideal for life science instrumentation, Optical Coherence Tomography (OCT), or OEM integration. Cone mirrors are used for 360° illumination. Rod mirrors or right angle prism mirrors are ideal for redirecting laser light at 90°. Convex spherical mirrors, which produce virtual upright images, are used to increase an imaging system’s field of view.

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