CW Diode and Diode Pumped Solid-State Lasers

High-Performance CW Diode and Diode Pumped Solid-State Lasers for Precision Applications

CW Diode and Diode Pumped Solid-State Lasers are advanced laser solutions offering continuous wave (CW) operation for a variety of high-precision applications. CW Diode Lasers provide stable and reliable performance for applications such as spectroscopy, imaging, and industrial processes. Diode Pumped Solid-State Lasers offer high power and efficiency for demanding tasks including material processing and scientific research. Both types of lasers deliver exceptional beam quality and stability, making them suitable for a wide range of applications in science, industry, and medicine.

  • High stability infrared CW diode lasers up to 2500 mW

    Applications: Measurement, Communication, Spectrum analysis
  • High stability, ultra-compact CW diode lasers up to 1800 mW

    Applications: Biological, Medical, Laser pumping, Scientific research, Medical imaging, DNA sequencing, Flow cytometry, Communication, Measurement, Spectrum analysis
  • High stability visible blue and infrared CW diode lasers up to 8000 mW

    Applications: Scientific research, Laser pointing, Laser lighting show, RGB mixed laser systems, Measurement, Communication, Spectrum analysis
  • Visible red and infrared continuous-wave (cw) diode lasers up to 5000 mW

    Applications: Laser lighting show, Measurement, Spectrum analysis, Collimation, Laser medical treatment, Scientific experiment, Optical instrument, Laser display
  • High stability, high power CW violet and red diode lasers up to 20000 mW

    Applications: Measurement, Spectrum analysis, Communication, Laser lighting show
  • High stability, ultra-compact, high power CW red diode lasers up to 1800 mW

    Applications: Measurement, Spectrum analysis, Laser lighting show
  • High power infrared CW diode lasers up to 12000 mW

    Applications: Measurement, Spectrum analysis, Communication
  • Ultra narrow spectral linewidth CW diode lasers

    Applications: Raman spectroscopy, DNA sequencing, Flow cytometry, Digital imaging, Confocal microscopy
  • High stability, high power CW diode lasers up to 4000 mW

    Applications: Medical imaging, Flow cytometry, DNA sequencing, Measurement, Spectrum analysis, Communication, Laser projection, Stage lighting, Biomedical application, Metrology
  • High performance, ultra-compact CW diode lasers with TEM00 mode

    Applications: Measurement, Communication, Scientific experiment, Spectrum analysis, Optical instrument
  • High stability, Ultra-compact, High power continuous-wave (cw) diode lasers up to 35000 mW

    Applications: Measurement, Spectrum analysis, Communication, Laser projection, Stage lighting, Biomedical application, Metrology
  • CW DPSS Laser System, Visible and Near IR, 10mW to 2500mW

    Applications: Fluorescence sensors, Raman spectrum, Laser printing, Holography, Laser display, Submarine communication, Biomedicine, Laser lighting show.
  • High frequency modulated DPSS lasers with modulation frequency up to 1MHz

    Applications: Laser graphic processing, Laser digital communications
  • Fan-less CW DPSS Laser System, Infrared at 912nm to 1357nm, 50mW to 1000mW

    Applications: Measurement, Spectrum analysis, Scientific research  
  • Fan-less CW DPSS Laser System, UV 273nm to 360nm, 1mW to 100mW

    Applications: Collimation, Laser medical treatment, Scientific experiment, Optical instrument  
  • CW DPSS Laser System, 473nm to 721nm, 10mW to 1200mW

    Applications: Collimation, Laser Medical Treatment, Scientific Experiment, Optical Instrument
  • Blue and infrared CW DPSS lasers up to 3000mW

    Applications: Fluorescence sensors, Raman spectrum, Laser printing, Holography, Laser display, Submarine communication, Biomedicine, Laser lighting show, Scientific experiment, Optical instrument, Optical sensor, Communication, Spectrum analysis
  • Infrared CW DPSS lasers up to 1000 mW

    Applications: Ho: YAG laser pumping, Medical, Scientific research, Long-distance telemetry and ranging, Laser radars, Designation, Communication, Spectrum analysis
Go to Top