Edmund Optics^®

Beam Shaping for High Power and Short Pulse Durations

Beam Conditioning Optics for UV, IR, and Broadband Lasers

The industry standard method for quantifying reflectivity does not tell the whole story

Geopolitics and export controls have significantly impacted the accessibility of coating materials for laser optics

Superpolished optics with sub-angstrom surface roughness are ideal for precise laser optics applications

Computer Generated Hologram metrology provides a new solution for overcoming traditional asphere metrology. Learn more about CGH metrology at Edmund Optics.

Seeing around corners is no longer science fiction thanks to ultrafast lasers and sensitive cameras

Large field of view telecentric imaging lenses allow for reduction of measurement and inspection time. Learn more about large FOV lenses at Edmund Optics.

A new generation of small, cost-effective, CW ultraviolet (UV) lasers allows more applications to move to UV wavelengths for increased power and precision.

The unique absorption properties of 2µm lasers allow them to create small and precise cuts for medical and materials processing applications

Schwarz Mirrors eliminate stray light using black, engineered fused silica substrates that maintain desired characteristics while absorbing unwanted light.

Trimming the Fat: Truncating Lenses to Shrink Systems

Pulse Compression and Dispersion Compensation for Ultrafast Lasers

Specialized coatings can minimize thermal lensing in ultrafast laser systems, which are particularly susceptible to detrimental thermal effects.

Traditional spherical lenses are evolving due to the increasing demands of applications. Learn about the future of spherical lenses at Edmund Optics.

Bringing Professional-Grade Technology to All

Image Quality of a Telecentric with the Flexibility of a Liquid Lens

Advances in Smart Materials, Imaging, and Ultrafast Laser Optics

Free-space optical (FSO) communications wirelessly transmit data through the air using lasers. FSO promises to revolutionize broadband internet access.

Not all ruggedized imaging lenses feature the same type of ruggedization. Learn about the advantages and disadvantages of each type at Edmund Optics.

Mounting flat mirrors by their edges in a kinematic mount imparts stress onto the mirror surface. This results in distortion and reduced quality of the reflected wavefront, which is especially noticeable when using high-quality mirrors. Stemmed mirrors, on the other hand, are mounted from a smaller diameter “stem” protruding from the back of the mirror, resulting in significantly reduced stress on the mirror surface, high stability, and cost reduction and can be used as a replacement for a more expensive and complex kinematic mount and a conventional mirror.

Computer Numerical Control (CNC) machines used for complex geometry manufacturing are expanding their material capabilities. Learn more at Edmund Optics.

Accessible, Flexible Technology Supported by a Community of Users

Advances in microscopy, imaging, and extreme ultraviolet optics

23 unique imaging systems help the Perseverance Mars rover look for signs of water and ancient life on the red planet.

Single-Material Aspheric Achromats correct chromatic aberrations with a unique geometry, leading to numerous benefits over conventional achromatic lenses.

Advances in Microscopy Tackle the Challenges of the Future

Pushing Optics to the Extreme

Additive manufacturing is revolutionizing rapid prototyping, IP protection, and the job market in the optics industry

Semiconductor supermirrors offer high reflectivity and outperform many IR mirrors on the market. Learn more about these new supermirrors at Edmund Optics.