Non-browning Radiation Resistant Lens for Low Light Applications

  Enquiry / contact me

Suitable for low light applications in space exploration and in the nuclear industry, it enables as much light as possible to be gathered and transmitted to the sensor.

Vision & Identification

Non-browning Radiation Resistant Lens for Low Light Applications
Non-browning Radiation Resistant Lens for Low Light Applications

Nuclear industry and spaceborne applications require lenses and optical systems that can withstand exposure to high levels of radiation and sometimes endure extreme temperatures. With its considerable experience of developing lenses and optical systems for these environments, Resolve Optics manufactures the Model 313-000 fixed focus lens from specially selected non browning glass. The lens has an aperture of f/1.4 to enable as much light as possible to be gathered and transmitted to the sensor. 

Design optimised for use with 2/3-inch image format radiation resistant CID cameras, this radiation resistant lens is the perfect choice in space exploration and in the nuclear industry

The optical glass selected for use in the Model 313-000 lens is proven to withstand long-term exposure to radiation up to a dose of 100,000,000 rads and temperatures to 55 °C without discoloration. The Model 313-000 delivers high image resolution and minimum geometric distortion from 400 to 770 nm.

Posted on March 16, 2021 - (198 views)
Resolve Optics Ltd
Asheridge Road
HP5 2PT Chesham - United Kingdom
+44-1494-777100
+44-1494-775201
View full company profile
Location
More products from this supplier
Radiation-hard Inspection Systems
Radiation Resistant Lens for Low Light Applications
Key Lenses & Optical Systems for Aerospace, Industrial and Military Applications
Custom UV Zoom Lens
Resolve Optics Invests In Workforce Wellbeing
Radical New Zoom Lens Design
All the Nuances of Optical Design
Radiation Hard Lenses in Space
Non-browning Fixed Focus Lenses
Designing Optical Systems for Space Projects
Related articles
Differential Centrifugal Sedimentation: A Valuable Technique for Characterization of Small Nanoparticles
That’s NXT: when the camera calls the shots
Camera Series with CoaxPress-12 Interface
How Zinkteknik Achieved Zero-defect Production with Kistler Test Automation Systems
FLIR Systems Opens New Service Center in Dubai
First Inference Camera with OPC UA
Autonomous Machine Vision System for FFP2 Face Masks Inspection
Fast, Efficient Ultrasonic Scanning of Large Composite Components
New Generation of Optical Kit Encoders
For Video Surveillance by Design
FLIR A8580 Compact LWIR HD Thermal Camera
FLIR A6750 SLS Thermal Camera
Thyristor Power Controllers
Highly-scalable Paperless Recorder
VisuNet HMI Systems
Microscope Optics for IR cameras
Faster Than a Speeding Bullet
Vision and Measuring Machines in Different Sizes
Faster Than a Speeding Bullet
High Precision Laser Scanner
Differential Centrifugal Sedimentation: A Valuable Technique for Characterization of Small Nanoparticles
Autonomous Machine Vision System for FFP2 Face Masks Inspection
BMW Chooses Inspekto to Bring AI to the Factory Floor
5-Megapixel 3D Snapshot Sensor
Camera-based Spindle Control
FLIR A8580 Compact LWIR HD Thermal Camera
Scanner for Fast Tracking of Coronavirus Patient Samples
Four-channel Laser Diode Driver Ics
Arm-based Qseven Module
FLIR A6750 SLS Thermal Camera
5-Megapixel 3D Snapshot Sensor
5MP Camera for NVIDIA® Jetson Xavier NX™ Developer Kit
FLIR A8580 Compact LWIR HD Thermal Camera
Visual Inspection with Plug & Inspect™ Technology
Elevated Body Temperature Visualization Through Thermal Imaging
Four-channel Laser Diode Driver Ics
Optical Gas Imaging for Oil & Gas Pipelines
Compact Cameras for Thermal Imaging
Images and Height Profiles Analysis
"Everyone can become a process miner"