Showing 17–27 of 27 results
Michael Iluz
Key Features:
3.2 MegaPixel CMOS Sensor
2.45 Million fps Max Speed
27+ GPixels/s
2072 x 1536 @ 8,512 fps
1920 x 1080 @ 12,742 fps
ISO 16,000 / 125,000
Shutter time: standard 1µs, Fast mode to 168ns
Michael Iluz
Key Features:
Readout chip type: Medipix3
Pixel size: 55 x 55 μm
Sensor resolution: 512 (256) x 1280 pixels
Dynamic range in one frame: 12-bit / 24-bit1
Dark current : none
Interface: USB 2.0 (Full-Speed)
Maximum frame rate: 20 (50) fps
Dimensions: 213 x 60 x 40 mm
Weight: 1800 g
Michael Iluz
Key Features:
Sensor Material: Si or CdTe
Sensor Thickness: 300 μm for Si; 1 mm for CdTe
Sensitive Area: 28 (14) x 140.8 mm
Number of Pixels: 512 (256) x 2560
Pixel Pitch: 55 μm
Resolution: 9 lp/mm
Readout Speed:170 (1×10 tiles) and 80 (2×10 tiles) frames/s
Readout Chip: Medipix3
Pixel Mode of Operation: Counting in Single Pixel Mode (SPM) or Charge Summing Mode (CSM)
Counter depth: 12 or 24 bits (configurable)
Connectivity: 2x Ethernet RJ-45
Weight: 3400 g
Dimensions: 210 mm x 190 mm x 42 mm (L x W x H)
Software: Pixet Pro
Johanna Taieb
BEST FOR
– Photoactivation localization microscopy (PALM)
– Stochastic optical reconstruction microscopy (STORM)
– Single particle tracking (SPT)
KEY FEATURES
– Corrects aberrations and restores diffraction-limited PSF
– Delivers best 2D and 3D localization precision for PALM/STORM imaging
– Doubles the number of detected photons and improves localization precision
– High temporal stability of the correction
Miki Iluz
Features:
Restores Point Spread Function (PSF) symmetry
Doubles the number of detected photons
Improves near diffraction-limited resolution
Allows you to create a perfect PSF ecoding astigmatism or tetrapod to go 3D
Gives you a better 2D and 3D localization precision
Is compatible with long-term imaging
Michael Iluz
Key Features:
Readout chip type: Timepix3
Pixel size: 55 x 55 μm
Sensor resolution: 256 x 256 pixels
Dynamic range in frame mode2: 1022 events count
Dark current: none
Interface: USB 2.0 (High Speed)
Maximum frame rate: 80 x 21 x 14 mm
Weight: 41 g
Johanna Taieb
BEST FOR
– Bio-imaging
– Ophthalmology
– Microscopy
– Beam shaping
KEY SPECS
– ±50 µm stroke (tilt p/v)
– 15 mm pupil with 52 actuators
– Exceptional surface quality (less than 10 nm rms active flat)
– Virtually no hysteresis (less than 2%)
– Near perfect linearity (over 95%)
– Compatible with open-loop control
– USB2 connectivity
Johanna Taieb
KEY SPECS
– ±50 µm stroke (tilt p/v)
– 15 mm pupil with 52 actuators
– Exceptional surface quality (<10 nm rms active flat)
– Virtually no hysteresis (<2%) – Near perfect linearity (>95%)
– Compatible with open-loop control
– USB2 connectivity
– Ultra-high temporal stability
Miki Iluz
Advantages of Mirao:
Closed-loop precision reaching 7nm RMS
Virtually no hysteresis (less than 2%)
Nearly perfect linearity (more than 95%)
Dust proof & high stabilization options available
Miki Iluz
Features of µDM deformable mirror for microscopy
Fast closed-loop convergence and accurate sensorless correction with perfect linearity and absence of hysteresis
Preserved photon budget with achromatic, highly reflective and continuous membrane
Long-term stability with temporal drift automatic compensation
Large dynamic range with 50% of actuators stroke still available while generating 40 microns PtV of focus
Fine timing control with trigger-in and trigger-out features
Easy integration with electronics embedded in a single-piece design and connection via a USB3 cable
Correction up to 10th Zernike order thanks to optimized actuator layout
Johanna Taieb
RECOMMENDED APPLICATIONS
– Free-space communication
– Astronomy
– Microscopy
– Ophthalmology
– Ultra-intense lasers
KEY FEATURES
– Modal Wavefront Analysis + Intensity Analysis
– Wavefront Correction Diagnosis + Influence Matrix Analysis + AO Control
– System Integrate using either C/C++, Python or Labview SDK
– Several hundred available functions
– Dozens of examples