Redefining Optical Engineering
at the Nanoscale.
Designing, developing, and manufacturing advanced optical elements and precision visual systems engineered around human vision. MetaRx™ combines nanophotonic optics, metasurfaces, metalenses, lithographic manufacturing, computational optics, and ophthalmic science.
Built Around Human Vision
Most visual technologies are designed around hardware limitations. MetaRx™ approaches optical engineering differently.
Built on foundations in ophthalmology, precision optics, and nanophotonic research, MetaRx™ develops optical systems designed to align more naturally with the human visual system itself.
From myopia management and adaptive lenses to metasurface optics and waveguide architectures, every system is engineered around how humans see, focus, perceive depth, and interact with visual information.
Nanophotonic Optical Platform
Metasurfaces
Subwavelength optical structures engineered to manipulate light with extreme precision.
Metalenses
Flat optical architectures replacing traditional curved lens systems through nanoscale phase control.
Optical Phase Control
Precise manipulation of light propagation for aberration management and advanced visual performance.
Wavefront Engineering
Computational optimization of optical behavior across complex visual systems.
Lithographic Nanofabrication
High-precision manufacturing of nanoscale optical geometries and diffractive structures.
Computational Optics
Integration of software, optical simulation, and intelligent visual optimization workflows.
Myopia Management Through Nanophotonic Optics
The MetaRx™ Myopia Control Lens applies nanoscale optical engineering to support modern myopia management through precision light modulation and peripheral defocus control. Unlike conventional approaches, the MetaRx™ architecture enables highly controlled optical behavior through lithographically engineered surface geometries at the nanoscale.
- Nano-patterned optical surfaces
- Peripheral defocus management
- Optical phase modulation
- Computational wavefront optimization
- Precision lithographic fabrication
- Pediatric myopia management
- Preventive vision care
- Intelligent ophthalmic systems
- Advanced corrective optics
Flat Optics Powered by Metasurface Engineering
Airlens™ 0.3 is MetaRx™'s next-generation metalens research platform exploring ultra-thin optical architectures built using nanoscale metasurface engineering. It replaces traditional refractive curvature with precisely engineered subwavelength structures capable of manipulating optical phase directly at the surface level.
- Metasurface optical engineering
- Metalens architectures
- Subwavelength optical structures
- Nano-imprint lithography
- Computational photonics
- Ultra-thin ophthalmic lenses
- Lightweight wearable systems
- Compact AR optics
- Intelligent optical modules
- Future visual computing
Electronically Tunable Vision Systems
FlexFocus™ is MetaRx™'s adaptive optics platform focused on dynamically adjustable visual systems using electronically controlled optical modulation. By combining adaptive optics with precision nanophotonic engineering, FlexFocus™ enables a new category of responsive visual systems capable of transitioning between near and far focus dynamically.
- Adaptive optical modulation
- Electronically tunable focus
- Liquid crystal optical architectures
- Active optical phase control
- Ultra-thin optical structures
- Adaptive ophthalmic lenses
- Presbyopia correction
- Smart eyewear systems
- Wearable visual computing
- Intelligent AR optics
Waveguide Optics for Wearable AR Systems
MetaRx™ Optical Waveguides are advanced diffractive optical architectures engineered for lightweight wearable augmented reality systems. Built using lithographic nanofabrication and precision waveguide engineering, the platform enables compact light propagation, high-transparency visualization, and scalable integration into next-generation AR devices.
- Diffractive waveguide optics
- Lithographic optical fabrication
- High-transparency structures
- Waveguide light injection
- Optical coupling architectures
- Field-of-view optimization
- Brightness tuning
- Waveguide geometry
- Prescription integration
- OEM optical integration
NTNB Research Systems
NTNB represents MetaRx™'s broader exploration into next-generation nanoscale optical systems, advanced photonic architectures, and future visual technologies. Operating as a research and development initiative, NTNB supports experimental optical technologies and future commercialization pathways — pushing the boundaries of precision optics and nanostructured materials.
- Nanophotonic systems
- Computational photonics
- Precision optical architectures
- Experimental visual technologies
- Intelligent optical infrastructure
- Prototype fabrication
- Process development
- IP generation
- Commercialization pathways
Built for Collaboration
Co-development of advanced optical technologies and visual systems.
Custom optical platforms engineered for enterprise products and wearable systems.
Precision lithographic fabrication and nanoscale optical production.
Commercialization-ready optical platforms adaptable to partner requirements.
Collaborative exploration into next-generation human vision technologies.
Build With MetaRx™
Develop advanced optical systems with AKESO's nanophotonic engineering platform.
Start BuildingCommercialize Optical Technologies
Partner with AKESO to transform research into scalable visual products.
Partner With UsDiscuss Optical Co-Development
Collaborate across design, manufacturing, and future visual system development.
Get In TouchEngineering the Future of Human Vision
MetaRx™ combines nanophotonic research, precision optical engineering, computational wavefront optimization, and scalable manufacturing to develop advanced visual technologies for the next generation of human vision systems.