Compact and Powerful: muDM for Real-Time Wavefront Shaping
The muDM deformable mirror is a compact, high-performance adaptive optics solution designed for precision imaging and wavefront correction. Featuring a 91-actuator architecture with embedded control electronics, it delivers exceptional real time correction capabilities. Offering both high-speed responsiveness and plug-and-play, it is ideally fit for advanced microscopy, laser beam shaping, and ophthalmic applications. Built-in drift compensation ensures long-term stability, making it perfect for extended experiments and live imaging.
91-Actuator Precision with Fast Response and Full Software Integration
Technically, muDM features 91 electromagnetic actuators capable of correcting up to 10th-order Zernike modes with >99.5% linearity and <0.1% hysteresis. It achieves a fast 2.4 ms settling time and provides surface correction accuracy down to ~7 nm RMS (with optional 4 nm version). USB3 connectivity and trigger-in/trigger-out options enable seamless system integration. muDM supports WaveTune and WaveKit Bio software for sensorless operation and full SDK support in Python, C++, and LabView.
Markets & Applications
- Biomedical and Life Sciences Imaging
- Ophthalmology and Vision Science
- Astronomy and Space Optics
- Laser Beam Shaping and Industrial Optics
- Optical Metrology and Inspection
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Benefits
- Exceptional Wavefront Correction
- Plug-and-Play Integration
- High Precision and Long-Term Stability
- Fast Real-Time Performance
Features
- Actuator Count: 91 electromagnetic actuators
- Actuation Technology: Electromagnetic, contactless
- Max Stroke (PV): ≥50 µm
- Resolution: Sub-nanometer (software-controlled)
- Linearity: >99.5%
- Hysteresis: <0.1%
- Temporal Stability: <15 nm RMS drift over 12 hours (with compensation)
- Settling Time: ≤2.4 ms
- Closed-loop Bandwidth: ~300 Hz (typical)
- Surface Quality (RMS): <7 nm RMS (standard), <4 nm RMS (optional)
Datasheet
