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Pulse laser Pulse laser

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Pulse laser

PerciLasers' pulsed lasers can achieve high-coherence laser pulse output with narrow pulse width, high peak power and high repetition frequency. We can provide customized development to help your scientific research, R&D and production.

Picosecond laser

Picosecond laser - non-frequency doubling

 
wavelength
Pulse Width
power
Introduction
Features
6-20ps
6-200mW
The nonlinear technology is used to realize the saturable absorber effect. The long-term stability of the output laser pulse is extremely high. It can work in high and low temperature environments and provide an excellent seed source solution for ultrafast laser processing.
  • Narrow pulse width
  • Narrow spectrum
  • Good durability
  • Linear polarization
  • Power stability
6-20ps
1-50W
The nonlinear technology is used to realize the saturable absorber effect. The high-power laser pulse is output stably for a long time through amplification. It can work in high and low temperature environments and is suitable for precision machining.
  • Narrow pulse width
  • Narrow spectrum
  • Good durability
  • Linear polarization
  • Power stability

Picosecond laser-frequency doubling

 
wavelength
Pulse Width
power
Introduction
Features
8-20ps
1-20W
Based on the scheme of amplifying picosecond seeds and then doubling the frequency, it outputs high-power, high-repetition-rate green laser, which is suitable for semiconductor precision detection, etc.
  • High power
  • Excellent beam quality
  • High power stability
  • High repetition rate
6-10ps
1-20W
Adopt solid state amplification solution to achieve high repetition rate and high power output, suitable for precision detection
  • High power
  • Excellent beam quality
  • High power stability
  • High repetition rate

Picosecond laser-frequency tripling

 
wavelength
Pulse Width
power
Introduction
Features
8-15ps
1-6W
Based on the scheme of amplifying picosecond seeds and then doubling the frequency, high-power, high-repetition-rate ultraviolet lasers are output, which are suitable for quantum computing, semiconductor precision detection, etc.
  • High power
  • Excellent beam quality
  • High power stability
  • High repetition rate
6-10ps
8W
Adopt solid state amplification solution to achieve high repetition rate and high power output, suitable for precision detection
  • High power
  • Excellent beam quality
  • High power stability
  • High repetition rate

Picosecond laser-Frequency quadrupling

 
wavelength
Pulse Width
power
Introduction
Features
8-15ps
5W
Based on the scheme of amplifying picosecond seeds and then doubling the frequency, high-power, high-repetition-rate ultraviolet lasers are output, which are suitable for quantum computing, semiconductor precision detection, etc.
  • High power
  • Excellent beam quality
  • High power stability
  • High repetition rate
6-10ps
5W
Adopt solid state amplification solution to achieve high repetition rate and high power output, suitable for precision detection
  • High power
  • Excellent beam quality
  • High power stability
  • High repetition rate

Nanosecond lasers

 
wavelength
Pulse Width
power
Introduction
Features
100-800ns
1-20W
Adopting all-fiber structure, high-power narrow pulse laser output is achieved through acousto-optic modulator and amplifier, which is suitable for wafer cutting, laser radar and other applications
  • High power
  • Compact structure
  • Good beam quality
1-30ns
60W
100W
The all-fiber structure is used to achieve high-power narrow pulse laser output through an acousto-optic modulator and an amplifier, which is suitable for applications such as micromachining and spectroscopy.
  • High power
  • Excellent beam quality
  • High power stability
1-30ns
30W
60W
Based on a narrow linewidth seed laser, pulse output is achieved through an acousto-optic modulator, etc., and a frequency doubling scheme is used to obtain a high-performance green laser, which can be used for precision processing, etc.
  • High power
  • Excellent beam quality
  • High power stability
1-30ns
10W
30W
Based on narrow linewidth seed laser, pulse output is achieved through acousto-optic modulator, etc., and high-performance ultraviolet laser is obtained by frequency doubling scheme, which can be used for precision processing, etc.
  • High power
  • Excellent beam quality
  • High power stability
1-30ns
5W
10W
Based on narrow linewidth seed laser, pulse output is achieved through acousto-optic modulator, etc., and high-performance ultraviolet laser is obtained by frequency doubling scheme, which can be used for precision processing, etc.
  • High power
  • Excellent beam quality
  • High power stability

Femtosecond laser

 
wavelength
Pulse Width
power
Introduction
Features
100fs
6-60mW
The nonlinear technology is used to realize the saturable absorber effect. The long-term stability of the output laser pulse is extremely high, which is suitable for applications such as optical combs and precision measurements.
  • Stable structure
  • Long life
  • Excellent beam quality
150fs
100mW
Based on fs seed, frequency conversion technology is used to achieve stable 780nm femtosecond laser output, suitable for optical comb, precision measurement and other applications
  • Stable structure
  • Long life
  • Excellent beam quality