Precision Optical Engineering
Precision Optics, Calculated.
We calculate imaging objectives, diffraction gratings, anamorphic and diffractive optics — systems that perform at the diffraction limit, from first principles to production drawings.
Capabilities
What We Calculate
Optical design and computation across refractive, diffractive, and hybrid systems.
Imaging Objectives
Photographic, projection, and microscope objectives: layout, optimization, tolerancing.
Diffraction Gratings
Ruled and holographic gratings: efficiency (RCWA), dispersion, anomaly analysis.
Diffractive Optics
DOE and kinoform design: beam shapers, splitters, hybrid refractive-diffractive systems.
Anamorphic Lenses
Cylindrical and anamorphic systems: laser diode beam circularization, widescreen optics.
Laser Systems
Beam expanders, F-theta scan lenses, beam delivery, fiber coupling.
Spectral Instruments
Spectrometers and monochromators: grating-based layouts, resolution and throughput budgets.
Systems Designed
Years Experience
Wavefront Precision
First-Pass Success
Optical path
From Concept to Production
A proven five-phase engineering process.
Requirements & Specifications
Define optical performance targets and budget.
Conceptual Design
First-order layout, glass selection, trade studies.
Detailed Optimization
Full ray-trace in Zemax/Code V, tolerance analysis.
Prototyping & Validation
MTF, wavefront, distortion testing on optical bench.
Production Support
Manufacturing drawings, acceptance tests, supplier qualification.
Field results
Client Results
"Improved MTF by 40%, reduced lens count from 7 to 5."
Dr. Klaus Bauer
VisionTech GmbH
"Caught a focus shift that saved us six figures."
Anna Petridou
AeroSense Ltd
"0.1 nm resolution in half the size."
Prof. Yuri Volkov
NanoLab Institute
Q & A
Common Questions
Focal point
Have an Optical Challenge?
Send us your specs. We respond within 48 hours.