Robust carbon fibers lies at the heart of Mezmeriz's incredible new mirror design. 150,000 hours of research at Cornell as resulted in a revolution in Microelectromechanical Systems(MEMS) technology. Historically, MEMS devices have been silicon based. By precisely placing carbon fiber into a silicon lattice, Mezmeriz can produce a vibrating resonance engine that has all the benefits of a silicon manufacturing, but with the strength advantages of carbon fiber.
To learn more, please view the Mezmeriz
white paper 
Some key specifications:
| Mechanical Scan Angle |
180° |
| Mirror Sizes | 0.5 mm2 to 1 mm2 |
| Fatigue Life | 100,000 hours |
| Dynamic Flatness | lambda/10 |
| Accuation power | less than 50 milliwatts |
| Maximum Speed | 43,000 hertz |
| Motion Behavior | Resonant |
| Operating Temperature Range | 0° to 70° C |
| Vibration Resistance | 20 Nm/second2 |
| Distance for 62” screen | 5” |
Mezmeriz's micromirror technology can work in concert with high-speed lasers to deliver a wider spread, for less cost, no warm up time, and completely silent operation.