LumenOS is pioneering next-generation holographic projection through advanced photonics, metasurface engineering, and AI-optimized wavefront control.

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Research Focus

Our interdisciplinary approach combines photonics, materials science, and computational algorithms

Metasurface Optics

Developing sub-wavelength nanostructures for unprecedented phase control and light manipulation.

Our metasurfaces achieve phase modulation from 0-2π with nanometer precision, enabling complex holographic projections.

Wavefront Engineering

Creating adaptive algorithms for real-time aberration correction and hologram optimization.

Using Shack-Hartmann sensors and neural networks, we achieve λ/50 RMS wavefront accuracy at 240Hz refresh rates.

Coherent Light Systems

Designing multi-wavelength laser arrays with MEMS-based beam steering for precise light control.

Our systems achieve 0.01° angular precision with 8W power output and 120° field of view.

Technical Specifications

Core Components

Laser Engine
532±2nm
Power Output
8W
FOV
120°
Resolution
4K @ 240Hz

Metasurface

Material
Si₃N₄
Feature Size
200-350nm
Phase Control
0-2π
Precision
λ/50 RMS

Thermal Management

Stability
±0.1°C
Conductivity
5W/mK
Material
Copper
Recovery
85%

Key Breakthroughs

Our research has led to significant advancements in holographic technology

Nanophotonic Metasurfaces

We've developed silicon nitride nanostructures with sub-100nm precision using electron-beam lithography.

Our phase control algorithm enables:

φ(x,y) = (2π/λ)[n₁h₁(x,y) - n₀h₀]

This allows for unprecedented light manipulation with phase control across 0-2π range.

Adaptive Wavefront Correction

Our real-time aberration correction system uses Shack-Hartmann sensors and neural networks.

We achieve λ/50 RMS accuracy at 240Hz refresh rates, enabling holographic projections in dynamic environments.

The system continuously monitors and corrects for environmental factors like temperature fluctuations and mechanical vibrations.

Energy Recovery System

We've developed waveguide technology that recycles 85% of unused light, reducing power consumption by 50% compared to conventional systems.

This breakthrough makes holographic technology viable for consumer applications by dramatically improving energy efficiency.

The system also contributes to thermal management by redirecting unused energy away from sensitive components.

Performance Metrics

Our technology outperforms conventional holographic systems in key metrics

Optical Efficiency
92%
Energy Recovery
85%
Phase Coherence
96%
Thermal Stability
±0.1°C

Comparative Analysis

Traditional Systems

  • Limited by diffraction limits
  • High power consumption (>15W)
  • Fixed focus depth
  • Prone to thermal drift
  • Low brightness in ambient light

LumenOS Technology

  • Overcomes diffraction limits
  • Ultra-low power (6-8W)
  • Dynamic focus adjustment
  • Active thermal stabilization
  • High brightness in all conditions
  • Full-color RGB holography

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Research Partnerships

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Lab Access

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Technical Papers

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