Showing 17–32 of 39 results
Johanna Taieb
BEST FOR
– Telecommunications
– IR Lasers
– SWIR lasers
– Optical systems in the SWIR
– LIDAR application
INFO
KEY FEATURES:
Interferometric Optical Sensing
LIDAR
B-OTDR Temperature and Strain
Gas Sensing
Optical Metrology and Spectroscopy
Acoustic Sensing
Oil and Gas Exploration
Coherent Communication
Test and measurement
Info
FEATURES:
ULTRA-COMPACT: 57.9 mm x 36.8 mm x 15 mm
Very High efficiency up to 97%
NTC thermistor input (for shutdown driver when the laser diode was overheating)
Analog Control Signal/ RS-232 / UART (possibility of USB option)
Soft-Start Current Ramp to User Set-Point
Possibility to calibrate current within 5%
Multiple Layers of Laser Diode Protection
RoHS3 compliant
LabView driver
Free software
Info
FEATURES:
ULTRA-COMPACT: 57.9 mm x 36.8 mm x 15 mm / 60mm x 58mm x 30mm
Very High efficiency up to 97%
NTC thermistor input (for shutdown driver when the laser diode was overheating)
Analog Control Signal/ RS-232 / UART (possibility of USB option)
Soft-Start Current Ramp to User Set-Point
Possibility to calibrate current within 5%
Multiple Layers of Laser Diode Protection
RoHS3 compliant
LabView driver
Free software
Michael ILUZ
Main features:
High power optical design (up to 200 W @ 1030 nm, 500 fs, 1 Mhz)
No internal reflections on optical elements
High beam pointing stability <0,2 mrad
All-in-one design with integrated controller
Two lens simultaneous movement assuring no misfocus
Absolute encoder (both lenses)
Fused silica optical elements
Diffraction limited performance for all magnifications
Application examples:
Precise laser micromachining
High power laser beam management
Research
Johanna Taieb
KEY FEATURES
– Mirror shape maintained even without electrical power
– Excellent optical quality with active flat better than 10 nm rms and minimal print-through effect
– Perfectly adapted to a beam diameters ranging from 20 to 500 mm
– Dielectric, metallic, or hybrid coating available
– Compatible with WaveTune software and every HASO wavefront sensors
– Optional SDK in C, Python, Labview
BEST FOR
– Correcting aberrations in full-power mode
– Focal spot correction
– Wavefront precompensation
– Particle acceleration
– High harmonic generation
KEY SPECS
– Optical quality enabling Strehl Ratio > 0,9
– Closed-loop processing frequency ≥ 10Hz
– Very low hysteresis (less than 0.5%)
– Very high correction capability
– No backlash compensation needed
– Completely customized to laser’s parameters
– Easy maintenance for actuator or substrate replacement
– Any angle of incidence ≤ 45°
Info
FEATURES:
ULTRA-COMPACT: 57.9 mm x 36.8 mm x 15 mm
Very High efficiency up to 97%
NTC thermistor input (for shutdown driver when the laser diode was overheating)
Analog Control Signal/ RS-232 / UART (possibility of USB option)
Soft-Start Current Ramp to User Set-Point
Possibility to calibrate current within 5%
Multiple Layers of Laser Diode Protection
RoHS3 compliant
LabView driver
Free software
Miki Iluz
Key Features:
Low noise diode current source, up to 8A and 5V
Temperature controller with TEC driver up to 60W
Fully adjustable digital PID temperature servo
Modulation 100mA modulation depth, 40kHz bandwidth
Ergonomic controls, LCD display
Computer control via ethernet and USB interfaces
Photodetector input for laser power monitoring
Safety features:
Key start
External interlock
Current and temperature limits
Photodetector limits
Full set of cables
Compact 25 x 8 x 29 cm, 2.4 kg
Michael ILUZ
Laser Power Attenuators:
Manual laser power attenuators LPA-M
Motorized laser power attenuators LPA
Advanced laser power attenuators LPA-A
OEM Motorized laser power attenuators LPA-OEM
Unpolarized beam motorized laser power attenuators LPA-U
Application examples:
Laser machining
Research
Laser power control / attenuation / stabilization
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
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
Michael ILUZ
Main features:
Compact design
High resolution – 175543 μsteps in 360 deg rotation
High accuracy – ±10 μsteps (± 0,02 deg)
Clear aperture – 18 mm
Fast adjustment – less than 0,2 sec (0 to 45 deg)
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
Key Features:
Up to 45 modes
Large bandwidth of operation
Minimal insertion loss and high selectivity
Optimized for standard and custom FMF, MMF and free space output