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ray<sup>gt</sup> Photonics

Laser Sensors for Existing Laser Devices

Laser sensors enable the control and monitoring of industrial or medical laser systems and ensure high reproducibility with constant processes.

Lasersensoren helfen bei der Steuerung und Überwachung von industriellen oder medizinischen Lasersystemen

Background

The high precision gRAYgt detectors are used for a wide variety of applications.

In industrial system gRAYgt sensor are used to monitor the laser power in order to avoide production waste. In welding, cutting, drilling, and making 3D production, too high or too low laser power can have negative impact on the result.

In medicine, laser sensors control optimal laser power and postion in surgical laser systems. gRAYgt detectors, for exmaple, can be integrated into laser surgery equipment or devices used for hair removal or tattoo removal.

In addition to monitoring and controlling existing laser systems, laser sensors are also directly integrated into existing laser sources where they monitor the stability of the laser beam. An example of integrating gRAYgt sensors is with solid-state lasers, where small portion of the radiation falls on the sensor, continuous monitoring its stability.

Solution

gRAYgt sensors for monitoring laser output and beam position in research and development.

With their compact design, gRAYgt laser performance detectors can be integrated into portable measurement devices.

Benefits

  • Flexible, precise measurement of laser output in real time
  • Sensor elements are easy to integrate
  • Thermal sensors allow for beam output independent of the wavelength of the laser
  • Wide spectrum range (UV to MIR), output spectrum: 10 μW to 50 W
  • Rapid response time
  • Compact, robust design
  • Slender profile enables direct integration into circuit boards
  • High tolerance in terms of sensor setup; the signal is less dependent on the incidence angle and position of the beam