Simulation. Intelligence. Control. We architect the fluid mirrors that redefine the limits of the observable universe.
Examorphic mirrors are born in the Digital Orbit. Our proprietary solvers track magnetohydrodynamic fluid interfaces with sub-wavelength precision, modeling the complex two-way coupling of electromagnetic fields and rotational forces to guarantee diffraction-limited performance before launch.
The ARGUS™ Intelligence Engine utilizes physics-guided neural networks to manage real-time wavefront control. By mapping image data directly to fluid surface configurations, ARGUS™ provides autonomous, sensor-less surface correction during tactical maneuvers.
Deploying liquid aperture telescopes in LEO provides persistent, high-cadence monitoring of any point on Earth.
The Examorphic liquid mirror aperture observes the farthest reaches of the infrared cosmos.
Our control loops monitor and repair mirror surfaces in real-time. Micrometeoroid impacts are countered by autonomous fluid recovery protocols, ensuring operational lifespans that span decades.
Partner with us to define the next era of high-aperture space architecture.