Digital optical holography, seeing in 3D with light.
AKmira's cameras read the 3D shape of a surface using light, the way sonar reads distance using sound, but with photons. No moving parts, no mechanical refocusing, and small enough to fit on a fraction of a fingertip.
Technical Detail (For Specialists)
Digital optical holography is an extension of known interference methods like Optical Coherence Tomography (OCT). By capturing phase interference between a reference beam and the backscattered light, our system measures surface topography and subsurface layers (~3 mm) without physical contact, operating at speed and optical resolution limits.
Why holographic imaging?
Extreme miniaturisation
No mechanical refocusing
Precise optical stitching
Depth independent of distance
Sub-surface measurement (~3 mm)
Acts as local 3D operating microscope
Our path to extreme miniaturisation
GEN 1 Prototype
First-generation ear scanner validation prototype and laboratory testbed.
GEN 2 Clinical Scanner
Commercial medical scanner with integrated co-axial light path.
GEN 3 Golden Eye
Ultra-miniature sensor, shrinking the camera to a fraction of a 1-cent coin.
A single platform for multiple industries
Medical technology & 3D endoscopy
Contactless internal 3D scanning during surgical procedures for real-time visualization.
Security technology
Contactless, high-precision 3D fingerprint acquisition for high-security biometric identification.
3D zoom camera
Long-range 3D zoom sensing up to ~1 km, weighing under 100 g for compact long-range imaging applications.