Industrypng
  • Material Processing
  • Semi-Conductor Metrology
  • Laser manufacturing
  • Printing
  • Automotive LIDAR

Photonics is the technology of generating and harnessing light and other forms of radiant energy whose quantum unit is the photon. Photonics involves cutting-edge uses of lasers components and electro-optical devices used in diverse fields of industrial applications such as laser material processing, automotive Lidar, manufacturing of laser devices, printing, semiconductor metrology, and medical devices manufacturing

Our company offers a large portfolio of photonics solutions for industry such as lasers sources at a component or a system level, optical components, fiber-optics components,  detection and imaging devices.

Related Products

100kW diode source: High efficiency high power diode laser source

 Bernard Azout

Key Features:

  • Up to 120 kW in one line @ 940 & 980 nm
  • Up to 250 kW @ 880 nm
  • Up to 1 MW in 8 lines matric array
  • 880, 940 and 980 nm available
  • Driver available in a separate rack or integrated to the source for 100 kW version
  • Operating with non DI water from +10°C to +40°C
  • Bar pitch 400, 800 or 1.2 mm upon energy per pulse
  • Lifetime warranties from 1 to 10 Gshots upon energy per pulse

1030-1180 nm DFB laser

 Johanna Taieb

Key Features:

  • Wide wavelength lineup: 1030, 1053, 1064, 1080, 1120, 1180 nm and more
  • Stable single mode operation
  • Short pulse (picoseconds, nanoseconds)
  • 400 mW to 1 nanosecond high light power
  • 14-pin butterfly / 7-pin SMPM module
  • Picosecond pulsed driver board
  • 1060 nm gain chip for tunable laser
  • Application: Seeder of fiber laser for machining, LIDAR

Fiber End-Cap

 Johanna Taieb

Key Features:

  • High Signal Transfer Efficiency
  • Built-in cladding light stripper
  • Low Beam Distortion
  • Customized Configurations Available

Fixed ratio laser beam expanders FEX

 Michael ILUZ

Main features:

  • Divergence adjustment
  • Galilean optical design
  • UVFS optical elements
  • Grease free mechanical design
  • Wide wavelenght adoption – 200 nm to 2 μm

 

Application examples:

  • Laser materials processing
  • Medical
  • Research

 

 

High Power Coupler

 Johanna Taieb

Key Features:

  • High power handling up to 20W or higher
  • 1×2 or 2×2 structure, 2×2 is prefer.
  • Parameter refer to telecom coupler
  • CW and Pulse available
  • Custom Configurations Available

High temperature / multi-color QCW stacked array

 Bernard Azout

Key Features:

  • QCW operation
  • Up to 400 W QCW per diode bar
  • Hard sodder technology
  • Wavelengths: 795 – 830 nm, 880 nm and 9xx nm
  • Highly efficient over a large operating temperature range (- 40 to 80°)
  • Options for multi-color emission (2 to 5 colors simultaneously)
  • Low thermal resistance assembly
  • Mechanically robust, shock and vibration resistant
  • Collimation on request with a pitch of 400 µm

LASEA – Ultrafast laser micromaching solutions

 Michael Iluz

Key Features:

  • Cutting and drilling with high speed and without taper
  • Femtosecond, picosecond and nanosecond laser machines
  • Up to 7 axes (5 mechanical axes and 2 optical axes)
  • Simultaneous movements of mechanical and optical axes for faster and improved machining results
  • Autofocus
  • Software tailored for industrial processes and compatible with main Enterprises Resource Planning and management software
  • Pallets and plates control by Pick & Place robot
    Industrial vision system for improved manufacturing processes (shape recognition and automatic positioning) as well as automatic quality control of manufactured pieces

Mode Fiels Adaptator (MFA)

 Johanna Taieb

Key Features:

  • High Signal Transfer Efficiency
  • Low Degradation of Beam Quality
  • High Power Operation (Forward version)
  • Wide Wavelength Range Applicable
  • Customized Configurations Available

QCW mini-stacked array

 Bernard Azout

Key Features:

  • High power density (500 to 1000 W QCW out of 3×3 mm² – 1200 to 2400 W QCW out of 5×5 mm²)
  • Highly compact design
  • Square emission area
  • Wavelength: 795–830 nm, 880 nm et 9xx nm
  • Options for multi-color emission
  • Collimation on request
  • High operating temperature range
  • Collimation on request
  • Mechanically robust, shock and vibration resistant

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.