
- High Efficiency, Angle Bending, Batwing, and Elliptical Configurations Available
- Transmission Efficiency >88%
- Low-Cost, High-Performance Diffusers

- OD ≥8 Blocking and >95% Minimum Peak Transmission in the Passband
- Designed for Common qPCR Fluorophores
- Excitation Filters and Emission Filters Available

- Narrow 10nm Bandwidth
- Lightweight, Flexible, and Ultra-Thin 400µm Thickness
- Scratch Insensitive and Durable Design

- Lightweight 90µm Thick Substrate
- >10,000:1 Extinction Ratio
- Excellent Resistance to Temperature, Chemicals, and Harsh Environments
- Range of Standard Sizes, Coatings, and Custom Options Available

- High UV Transmission from 325 - 400nm
- 1000:1 Contrast From 325 - 400nm, 6000:1 Contrast From 400 - 750nm
- Thin, Versatile Polymer Substrate


- Diffraction Limited at Designed Nd:YAG Laser Wavelengths
- Laser Damage Designed Coatings on UV Fused Silica Substrates
- Specified Slope Error to Guarantee Low Mid-Spatial Frequency Errors
- High Precision Laser Grade Aspheric Lenses are also Available


- High Quality Fused Silica Substrate
- <10Å Surface Roughness for Low Scatter
- 90° Offset Angle for Easy Integration


- ZERODUR® Substrates Provide Near Zero Thermal Expansion
- Enhanced Reflectivity and LDT over Metallic Coatings
- UV, Visible, and NIR Reflective Coatings Designed for 0-45° AOI
- Metallic Coated ZERODUR® Mirrors Also Available


- 120nm and 190nm Design Wavelengths
- Ideal for Focusing VUV or DUV Light
- Broadband Reflectivity through the Visible and IR
- Also Available as Precision Flat Mirrors

- >1,000:1 Extinction Ratio from 700nm-1600nm
- Ideal for NIR Imaging Applications
- Affordable Alternative to Conventional Glass Polarizers
- Ultra-Broadband NIR Polarizing Films also Available

- 25 and 125° Diffusing Angles Available
- 90% Transmission Efficiency
- Eye-Safe ROE, No Zero-Order and No Hot Spot


- Ideal for Redirecting Light in One Axis
- Hollow Design Minimizes Dispersion
- Replaces Solid Roof or Porro Prisms in Optical Assemblies

- Increase Resolution up to 4X with High Angular Position Accuracy
- Fast Transition Times with Light-Weight and Compact Design
- Optotune ICC-4C-2000 Controller Required (#23-717)

- UV/VIS and VIS/NIR Versions Available
- FC Connector Compatible with Spatial Filters
- FC Connector Compatible with Fiber Alignment Mounts
- FC and SMA Connector Options

- λ/4 and λ/2 Retardance for Harmonic Separation
- Designed for Nd:YAG, Yb:YAG, or Ti:Sapphire Lasers
- Multiple Order Designs

- Asymmetrical Design for Precise Focusing and Small Spot Size
- Uncoated Fused Silica Substrate with 10-5 Surface Quality
- Ideal for Higher Power Laser Applications

- Protective Windows for Machine Vision Applications
- Windows Feature Extreme Surface Hardness and Chemical Resistance
- M25.5 to M62.0 Filter Threads Available


- UV Fused Silica Substrates with a 30 Arcminute Wedge
- λ/10 Surface Flatness and 20-10 Surface Quality
- Prevent Laser Instability When Used in Laser Cavities
- N-BK7 Wedged Windows and Fused Silica Flat Windows Also Available



- Monolithic Aluminum Construction
- Return Beam Accuracy Unaffected by Vibration
- Bare Gold Coated for High Reflectivity in the Infrared
- Low Profile Versions are Available


Top Seller
- Uncoated or with AR Coatings Designed for a Variety of IR Ranges
- Minimal Chromatic Aberration Due to Low Dispersion
- Ideal for Infrared Applications Requiring Rugged Optics
- DLC Coated Germanium Windows are also Available
- Due to material supply chain disruptions with germanium, there may be increased lead times and price changes on our germanium products. For more information, please contact our customer service team.

- High Transmission from 200 to 3500nm
- <1 ppm OH Content for Minimal Absorption Losses
- 10-5 Surface Quality and up to λ/10 TWD




- High Reflectivity & Low Group Delay Dispersion (GDD) for Ultrafast Beam Steering
- Ion-Beam Sputtered (IBS) Coatings Minimize Scatter and Absorption Losses
- Near-Zero GDD for Both the First and Second Harmonics of Ti:sapphire and Yb-doped Lasers

- ICC-4C-500 Controls Up to 4 Optotune Lenses Simultaneously
- ICC-4C-2000 Controls Optotune Beam Shifters and Fine Steering Mirrors
- Driven via Optotune Cockpit GUI, SDK, or Analog Signal
- Optotune Lens Drivers and Gardasoft Controllers Also Available

- Milliradian (mrad) Beam Steering Range With µrad Resolution
- Metallic or Dielectric Coatings for Low to High Power Lasers
- Ideal for Laser Wobbling Applications


- Enhanced Reflectivity and LIDT over Metallic Coatings
- Average Reflectivity >99% Over Broad UV, Visible, and NIR Wavelengths
- Designed for all Polarization States from 0 – 45° AOI

- BBO Crystals for Frequency Conversion of 800nm and 1030nm Lasers
- LBO Crystals for Frequency Conversion of 1030nm and 1064nm Lasers
- High Damage Thresholds Up to 10 J/cm2 @ 1064nm, 10ns, 10Hz
- Broad Transparency Range from the UV to the IR

- Excellent Transmission from 0.12 to 7μm
- Rugged and Durable
- Resistant to Chemical Etching

- Excellent Transmission from 0.2 - 12μm
- Resistant to High-Energy Radiation
- High Transmission without AR Coatings

- Greater than 90% Transmission from 350nm-7μm
- Low Index of Refraction
- Low Solubility and Chemically Inert

- High Corrosion Resistance and Thermal Stability
- Higher Durability than Glass Windows
- Transmission from 0.33 – 5.5µm

- Minimal Chromatic Aberration Due to Low Dispersion
- Uncoated Transmission from 2 – 16µm
- Available with BBAR or DLC Coating for 8 – 12µm
- Due to material supply chain disruptions with germanium, there may be increased lead times and price changes on our germanium products. For more information, please contact our customer service team.

- Excellent Thermal Stability
- Low Auto-Fluorescence
- IR Grade Fused Silica

- High Transmission from 190 - 3500nm
- High Chemical Resistance
- Low Coefficient of Thermal Expansion

- Excellent Transmission from 0.25 – 26μm
- Good Resistance to Mechanical Shock
- Ideal for FTIR Spectroscopy

- Transmission from 1.2 - 7μm
- Available Uncoated or HDAR Coated for 3 - 5μm
- Ideal for Weight Sensitive Applications

- Low Dispersion and Absorption from 0.6 – 18µm
- High Resistance to Thermal Shock
- Ideal for Thermal Imaging, FLIR, and Medical Systems

- Low Absorption and Low Scatter from 0.4 - 12μm
- Higher Durability than Zinc Selenide
- Ideal for Use with Infrared Sensors

- Transmit P-Polarized Light Without Reflection Losses
- Ideal for Polarization Separation in the IR Spectrum
- Germanium (Ge) or Zinc Selenide (ZnSe) Substrate Options
- Due to material supply chain disruptions with germanium, there may be increased lead times and price changes on our germanium products. For more information, please contact our customer service team.

- High Numerical Apertures
- Ideal for Fiber and LED Coupling
- Available with Fused Silica, Si, CaF2, or ZnSe Substrates

- Excellent Transmission from 0.2 - 12μm
- Provide High Transmission without AR Coatings
- Ideal for Infrared Spectroscopy and Infrared Imaging Applications

- Excellent Transmission from 0.2 - 12μm
- Provides High Transmission without AR Coatings
- 25 – 500mm Focal Lengths Available

- Low Index of Refraction
- IR Grade Calcium Fluoride Substrates
- Standard Imperial Sizes for Easy Benchtop Integration

- Greater than 90% Transmission from 0.35-7μm
- Low Index of Refraction
- Ideal for Integration into Infrared Systems

- Positive Meniscus Lens Designs
- Minimize Spherical Aberration and Reduce Spot Sizes
- Wavelength Range of 2 - 16μm
- Due to material supply chain disruptions with germanium, there may be increased lead times and price changes on our germanium products. For more information, please contact our customer service team.

- Ideal for Thermal Imaging Applications
- Uncoated Transmission from 2 – 16µm
- Available Uncoated or BBAR Coated for 3 - 12µm
- Due to material supply chain disruptions with germanium, there may be increased lead times and price changes on our germanium products. For more information, please contact our customer service team.

- Transmission from 1.2 - 7μm
- Diffraction-Limited Performance
- Available Uncoated or HDAR Coated for 3 - 5μm

- High-Durability Anti-Reflection (HDAR) Coated for 3 - 5μm
- Ideal for Weight Sensitive Applications
- Available Focal Lengths from 25.4 – 500mm

- Positive or Negative Meniscus Lenses
- CVD Grade Zinc Selenide (ZnSe) Ideal for CO2 Systems
- Uncoated or BBAR Coated for 8 – 12µm

- Low Dispersion and Absorption from 0.6 – 18µm
- High Resistance to Thermal Shock
- Uncoated or BBAR Coated for 8 – 12µm

- Designed for Small Spot Sizes Between 1 - 12µm
- BBAR Coating Covering the NIR - LWIR from 1 - 12µm
- Low Absorption and Dispersion

- Pyrex® Mirror Substrates
- Protected Gold Coating
- Ideal for LWIR Applications

- Beamsplitter Coatings Covering 1.5 – 14µm
- Designed for 50/50 Beamsplitting at 45° AOI
- Calcium Fluoride or Zinc Selenide Substrates

- 30 Arcmin Wedge
- Low Absorption, High Transmission
- Ideal for Harsh Environments
- Precision Flat Calcium Fluoride Windows Also Available

- 30 Arcmin and 3° Wedge Versions Available
- Low Dispersion
- Eliminate Etalon Effect and Cavity Feedback
- Precision Flat Zinc Selenide Windows Also Available

- Broad Transmission Range from 1 - 16μm
- Tough, Durable Infrared Material
- Water Insoluble and Chemically Stable

- 30 Arcmin Wedge
- Excellent Transmission from 200nm - 12μm
- Resistant to High-Energy Radiation
-
Precision Flat Barium Fluoride (BaF2) Windows Also Available

- Highly Durable Polymer Sheets
- λ/4 (WP140HE) Achromatic Retarder with Greater than 90% Transmission from 450-700nm
- λ/4 (WP140HE), λ/2 (WP280), and 1λ (WP560) Retarder Films Available

- Separate Visible Light from Infrared (3-12µm) Light
- Visible Transmitting/Infrared Reflecting and Visible Reflecting/Infrared Transmitting Designs
- Ideal for Combining Visible Guide Lasers with MWIR Lasers

- Even, Diffuse Surface
- Low Scatter Loss
- 0.3 – 12.0µm Spectral Range
- UV Fused Silica Ground Glass Diffusers Also Available

- CaF2, Ge, and ZnSe Substrates
- Ray Deviation of 90°
- Ideal for Use with Collimated Sources
- Additional Infrared Optics Available

- 30 Arcmin Wedge
- High Transmission from 2 – 10µm
- Ideal for Infrared Applications Requiring Rugged Optics
- Precision Flat Germanium Windows Also Available
- Due to material supply chain disruptions with germanium, there may be increased lead times and price changes on our germanium products. For more information, please contact our customer service team.

- Greater than 90% Transmission from 350nm-7μm
- Low Index of Refraction
- High Laser Damage Threshold

- Broad Transmission from 700nm - 40μm
- Non-Hydroscopic
- Ideal for FTIR Spectroscopy with Aqueous Samples

- Meets Severe Abrasion Requirements of MIL-F-48616 and MIL-C-48497C
- High Transmission from 3 – 5µm
- Ideal for Harsh Environments
- Diamond-Like Carbon (DLC) Coated Germanium Windows Also Available

- Broad Transmission Range from 1 - 25μm
- No Absorption Bands between 12 - 25μm
- Ideal for Longwave IR Spectroscopy


- Full Prescription Data Available
- Standard 25mm Diameter for Easy System Integration
- High Numerical Aperture Designs for Superior Light Collection



- Convert Gaussian Beams to Donut-Shaped Energy Rings
- Vortex Phase Plates for 488, 515, and 532nm Lasers
- Polymer on Glass, N-BK7 Substrate with a Lower Price Point


Top Seller
- Features Extreme Surface Hardness Chemical Resistance
- Transmits Wavelengths Ranging From UV to Mid-Infrared
- Thinner and Stronger than Standard Glass Windows
- Anti-Reflection Coating Options Covering 400 - 5000nm Available

- Ideal for Gas Analysis
- Center Wavelengths of 2.7-12.4μm
- Single Substrate Interference Filter


- Ultrafast-Enhanced Silver Coating for Ti:sapphire and Yb:doped Lasers
- Low Group Delay Dispersion
- <50Å RMS Surface Roughness to Minimize Scatter


- Enhanced Metallic Coating for High Reflectivity Across Deep UV (DUV) and Visible Spectra
- 190nm Design Wavelength
- <50Å RMS Surface Roughness

- Generate Non-Gaussian Line Patterns
- Ideal for Light Homogenization
- Excellent Performance from 193nm – 2.5μm


Top Seller
- Reflects Light at 90°
- Ideal for System Alignment
- Enhanced Aluminum, Protected Gold, and Protected Silver Coatings


- Ultra-Thin 0.20mm Thickness
- Precision N-BK7 Substrate
- Extremely Lightweight


- Diffraction-Limited Performance
- Low Density and Dispersion
- Ideal for Weight Sensitive IR Applications
- Available with BBAR (1650-3000nm) or Mid-Wave Infrared (3000-5000nm) AR Coatings


- Excellent Transmission in the UV
- Hexagonal Aperture Maximizes Throughput
- Perfect for Non-Uniform Light Sources
- Additional Light Pipe Homogenizing Rods Available


- Low Dispersion
- Available Uncoated or AR Coated
- Ideal for Thermal Imaging, FLIR, and Medical Systems


- Splits Input Image Into Two Paths Separated by 180°
- Variety of Sizes and Broadband Coatings Available
- Additional Right Angle Prism Options Available


Top Seller
- Circular and Square Sizes from 5mm to 150mm
- 7 Broadband Anti-Reflection Coating Options Available
- World's Largest selection of Standard N-Bk7 Windows
- Also Available with Ultra-Thin N-BK7 Windows


- Precision ZERODUR® Substrates
- λ/10 Flatness
- Low Coefficient of Thermal Expansion


- Precision Fused Silica Substrate
- Variety of Sizes and Coating Options Available
- Low Coefficient of Thermal Expansion


- Ultra-Thin 0.20mm Thickness
- UV Fused Silica Substrates
- Extremely Lightweight


- Consistent Transmission from 350 – 1100nm
- Optical Densities from 0.1 to 3.0 Available
- Combine Filters for Custom Optical Densities




- Color-Corrected Plastic Aspheres
- Diffractive Surface Minimizes Chromatic Aberration
- Low-Cost, Molded Design

- FC/PC, FC/APC, and Hybrid Terminated Connectors
- Patchcords for Wavelengths from 450 – 1650nm
- 1m and 2m Standardized Lengths Available

- FC/PC, FC/APC, and Hybrid Terminated Connectors
- Patchcords for Wavelengths from 460 – 1625nm
- Polarization Extinction Ratios up to 25dB
- 1m and 2m Standardized Lengths Available

- FC/PC, FC/APC, or Hybrid Terminated Connectors
- Patchcords for Wavelengths from 970 – 1625nm
- Extinction Ratios up to 33 dB
- Ideal for Use with 980, 1064, 1310, and 1550nm IR Lasers


- Superior 30,000:1 Extinction Ratio
- Excellent Transmission from 400-700nm
- Available in a Range of Sizes
- Custom Sizes Available
- Note: These products will be temporarily unavailable and will be available for purchase again in June 2024

- Designed for 700 - 2500nm
- High Transmission and High Contrast Versions Available
- Ideal for Thermal Imaging

Top Seller
- Stackable, Rotating Mount for Easy Integration into Imaging Systems
- Eliminate Hot Spots and Reduce Glare
- 95% Polarization Efficiency
- Also Available Unmounted


- Excellent Extinction Ratio of 9000:1
- Increased Durability through Lamination on PMMA
- High Transmission of Unpolarized Light from 400 – 700nm


- Highest Transmission Polarizing Film for the Visible Spectrum
- >99.95% Polarization Efficiency
- Custom Options Available
- High Contrast Linear Polarizing Film Also Available
- Note: These products will be temporarily unavailable and will be available for purchase again in June 2024


• BBAR Coatings from the UV to the NIR
• Ideal for Low Power Laser Sources
• Sizes Ranging from 5 – 25mm


or view regional numbers
QUOTE TOOL
enter stock numbers to begin
Copyright 2023, Edmund Optics Inc., 101 East Gloucester Pike, Barrington, NJ 08007-1380 USA
California Consumer Privacy Act (CCPA): Do Not Sell or Share My Personal Information
California Transparency in Supply Chains Act