Showing 17–30 of 30 results

MicAO 3DSR – High Resolution 3D for SMLM

 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

MicAO: Adaptive Optics add-on module for SMLM

 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

mu-DM: Deformable mirror for microscopy & ophthalmology

 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

Solid-State Lasers: JenLas® D2. series

 Bernard Azout

Key features:

  • High precision: Based on proven disk laser technology.
  • Optimal beam quality: Due to a thin Nd:YVO4 disk as the laser medium.
  • Peltier cooling: No water in the system.
  • Easy to integrate: Compact OEM design.

Variable beam expanders VEX and reducers VRE

 Michael ILUZ

Main features:

  • Highest beam pointing stability (<0,5 mrad)
  • Fused silica optical elements
  • Grease free mechanical design
  • Sliding lens design
  • Diffraction limited performance for all magnifications

 

Application examples:

  • Laser micromachining
  • Research

WAVETUNE – Perfect loop control for imperfect wavefronts

 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