Frequency Converter Laser
Ytterbium-doped frequency-amplified laser
picture | wavelength | power | Output Mode | Introduction | Features |
 | 1W 2W 2.5W | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 506-512nm is achieved. |
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 | 5W 30W | Space output fiber output (customizable according to needs) | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 506-512nm is achieved. |
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| | 1W 5W | Space output fiber output (customizable according to needs) | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 512-532nm is achieved. |
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| | 10W 30W | Space output fiber output (customizable according to needs) | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 512-532nm is achieved. |
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| | 0.2W 1.5W 10W | Space output fiber output (customizable according to needs) | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with a central wavelength of 532nm is achieved. |
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| | 20W 30W 80W | Space output fiber output (customizable according to needs) | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with a central wavelength of 532nm is achieved. |
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| | Pump用532nm | 5W 10W | Spatial Output | Based on high-power, low-noise ytterbium-doped fiber amplification and resonant frequency doubling technology, high-power narrow-linewidth laser output with a central wavelength of 532nm is achieved. For pumping applications, the frequency-accurate laser has designed a special frequency doubling cavity size and output spot size. |
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| | 30W 60W | Spatial Output | Based on high-power, low-noise ytterbium-doped fiber amplification and resonant frequency doubling technology, high-power narrow-linewidth laser output with a central wavelength of 532nm is achieved. For pumping applications, the frequency-accurate laser has designed a special frequency doubling cavity size and output spot size. |
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| 0.5W 1.5W | Space output fiber output (customizable according to needs) | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 543-556nm is achieved. |
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| 10W 20W | Space output fiber output (customizable according to needs) | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 543-556nm is achieved. |
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| 0.5W 1W | Space output fiber output (customizable according to needs) | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 556-567nm is achieved. |
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| | 3W | Spatial Output Optical fiber output (customizable according to requirements) | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 556-567nm is achieved. |
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Ytterbium-doped frequency-tripled laser
picture | wavelength | power | Output Mode | Introduction | Features |
 | 20mW 40mW | Spatial Output | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency tripling technology, high-power narrow-linewidth laser output with a central wavelength in the range of 355-373nm is achieved |
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 | 500mW 2W 4W | Spatial Output | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency tripling technology, high-power narrow-linewidth laser output with a central wavelength in the range of 355-373nm is achieved |
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Ytterbium-doped amplified frequency quadrupled laser
picture | wavelength | power | Output Mode | Introduction | Features |
 | 0.1W 0.5W 1W | Spatial Output | Based on high-power, low-noise ytterbium-doped fiber amplification and quadruple frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 251-283.5nm is achieved. |
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| 0.03W 0.1W 0.5W 1W | Spatial Output | Based on high-power, low-noise ytterbium-doped fiber amplification and quadruple frequency technology, high-power narrow-linewidth laser output with a central wavelength of 266nm is achieved. |
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PerciLasers' Erbium-doped Fiber Frequency Conversion Laser can support high-power, low-noise fiber amplified output of 1530nm-1600nm. By using frequency doubling technology, it can achieve high-power, low-noise laser output, covering the range of 382nm-399nm, 765nm-800nm. It has the advantages of narrow linewidth, high power, long life, etc., and can provide customized development to help your scientific research, development and production.
Erbium-doped frequency-amplified laser
picture | wavelength | power | Output Mode | Introduction | Features |
 | 0.2W 2W 6W | Space output fiber output (customizable according to needs) | Based on high-power, low-noise erbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 765-770nm is achieved. |
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| 0.2W 2W 8W 15W | Space output fiber output (customizable according to needs) | Based on high-power, low-noise erbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 770-785nm is achieved. |
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| 0.2W 2W 4W | Space output fiber output (customizable according to needs) | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 785-798nm is achieved. |
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 | 0.2W 0.5W 1W 2W 4W 8W 20W | Space output fiber output (customizable according to needs) | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output at a wavelength of 780nm is achieved. |
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 | 2W-2W | Dual fiber output | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser dual-path output at a wavelength of 780nm is achieved. |
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 | 0.5W 2W | Optical fiber output | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output at a wavelength of 780nm is achieved. |
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 | 0.2W 0.5W | Optical fiber output | Based on high-power, low-noise ytterbium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output at a wavelength of 780nm is achieved. |
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Erbium-doped amplified frequency quadrupled laser
picture | wavelength | power | Output Mode | Introduction | Features |
| 50mW | Spatial Output | Based on high-power, low-noise erbium-doped fiber amplification and quadruple frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 382-385nm is achieved. |
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 | 2W 4W | Spatial Output | Based on high-power, low-noise erbium-doped fiber amplification and quadruple frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 382-385nm is achieved. |
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| 50mW | Spatial Output | Based on high-power, low-noise erbium-doped fiber amplification and quadruple frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 385-392.5nm is achieved. |
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| 2W 4W 8W | Spatial Output | Based on high-power, low-noise erbium-doped fiber amplification and quadruple frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 385-392.5nm is achieved. |
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| 50mW | Spatial Output | Based on high-power, low-noise erbium-doped fiber amplification and quadruple frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 392.5-399nm is achieved. |
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| 2W | Spatial Output | Based on high-power, low-noise erbium-doped fiber amplification and quadruple frequency technology, high-power narrow-linewidth laser output with a central wavelength in the range of 392.5 to 399nm is achieved. |
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PerciLasers' thulium-doped fiber frequency conversion laser can support high-power, low-noise fiber amplified output from 1760nm to 2024nm. Using frequency doubling technology, high-power, low-noise near-infrared laser output can be achieved, covering the range of 220-248nm, 440-506nm, 880nm-1012nm. It has the advantages of narrow linewidth, high power, and long life. Customized development can be provided to help your scientific research, development, and production.
Thulium-doped frequency-amplified laser
picture | wavelength | power | Output Mode | Introduction | Features |
 | 0.1W 1W 2W | Space output fiber output (can be customized according to needs) | Based on high-power, low-noise thulium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 880-920nm is achieved. |
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| 0.2W 2W | Space output fiber output (can be customized according to needs) | Based on high-power, low-noise thulium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 920-950nm is achieved. |
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| 5W | Spatial Output | Based on high-power, low-noise thulium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 920-950nm is achieved. |
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| 0.2W 2W | Space output fiber output (customizable according to needs) | Based on high-power, low-noise thulium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 951-1012nm is achieved. |
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| 5W 10W | Spatial Output | Based on high-power, low-noise thulium-doped fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 951-1012nm is achieved. |
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Thulium-doped quadrupled frequency laser
picture | wavelength | power | Output Mode | Introduction | Features |
| 0.05W | Spatial Output Optical fiber output (customizable according to needs) | Based on high-power, low-noise thulium-doped fiber amplification and quadruple frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 440-460nm is achieved. |
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| 1W | Spatial Output | Based on high-power, low-noise thulium-doped fiber amplification and quadruple frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 440-460nm is achieved. |
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| 0.05W 0.4W | Spatial Output Optical fiber output (customizable according to needs) | Based on high-power, low-noise thulium-doped fiber amplification and quadruple frequency technology, high-power narrow-linewidth laser output with a central wavelength in the range of 460-475nm is achieved |
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| 2W 3W | Spatial Output | Based on high-power, low-noise thulium-doped fiber amplification and quadruple frequency technology, high-power narrow-linewidth laser output with a central wavelength in the range of 460-475nm is achieved |
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| 0.05W 0.4W | Spatial Output Optical fiber output (customizable according to needs) | Based on high-power, low-noise thulium-doped fiber amplification and quadruple frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 475-506nm is achieved. |
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| 2W 5W | Spatial Output | Based on high-power, low-noise thulium-doped fiber amplification and quadruple frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 475-506nm is achieved. |
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Thulium-doped octahedral frequency-amplified laser
picture | wavelength | power | Output Mode | Introduction | Features |
 | 0.01W 0.05W | Spatial Output | Based on high-power, low-noise thulium-doped fiber amplification and eight-frequency technology, high-power narrow-linewidth laser output with a central wavelength in the range of 220-248nm is achieved |
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PerciLasers' Raman amplified frequency-doubled laser can support high-power, low-noise fiber amplified output of 1120nm-1530nm. By using frequency-doubled technology, high-power, low-noise laser output can be achieved, covering a range of 560nm-765nm. It has the advantages of narrow linewidth, high power, and long life. Customized development can be provided to help your scientific research, development, and production.
Raman Amplified Frequency-Doubled Laser
picture | wavelength | power | Output Mode | Introduction | Features |
 | 0.5W 2W 30W | Spatial Output | Based on high-power, low-noise Raman fiber amplification and single-pass frequency doubling technology, high-power narrow-linewidth laser output with any central wavelength in the range of 560-765nm is achieved. |
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| 0.5W 2W 5W | Spatial Output | Based on high-power, low-noise Raman fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with a central wavelength of 578nm is achieved. |
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| 0.05W 0.4W | Spatial Output | Based on high-power, low-noise Raman fiber amplification and frequency doubling technology, high-power narrow-linewidth laser output with a central wavelength of 589nm is achieved. |
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PerciLasers uses ultra-narrow linewidth fiber DFB lasers and fixed external cavity semiconductor lasers as seed sources, uses all-fiber amplifiers for low-noise power amplification, and two fundamental frequency lights undergo one or more frequency conversions through nonlinear crystals to achieve narrow linewidth, high-power laser output, covering a range of 205-220nm, 305-365.5nm, 405-440nm, 610-658nm, 658-765nm, 810-880nm. It has the advantages of narrow linewidth, high power, and long life, and can provide customized development to help your scientific research, development, and production.
Erbium-doped frequency-amplified laser
picture | wavelength | power | Output Mode | Introduction | Features |
 | 0.5W 2W | Spatial Output | Based on high-power, low-noise fiber amplification and frequency summing technology, high-power narrow-linewidth laser output with any central wavelength in the range of 610-658nm is achieved. |
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 | 5W | Spatial Output | Based on high-power, low-noise fiber amplification and frequency summing technology, high-power narrow-linewidth laser output with any central wavelength in the range of 610-658nm is achieved. |
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| 0.5W 2W | Spatial Output | Based on high-power, low-noise fiber amplification and sum-frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 658-720nm is achieved. |
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| | 5W | Spatial Output | Based on high-power, low-noise fiber amplification and frequency summing technology, high-power narrow-linewidth laser output with any central wavelength in the range of 658-720nm is achieved. |
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| 0.5W | Spatial Output | Based on high-power, low-noise fiber amplification and sum-frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 720-730nm is achieved. |
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| 2W 5W 10W | Spatial Output | Based on high-power, low-noise fiber amplification and sum-frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 720-730nm is achieved. |
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| 1.5W 5W | Spatial Output | Based on high-power, low-noise fiber amplification and frequency summing technology, high-power narrow-linewidth laser output with any central wavelength in the range of 730-765nm is achieved. |
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| 10W 15W | Spatial Output | Based on high-power, low-noise fiber amplification and frequency summing technology, high-power narrow-linewidth laser output with any central wavelength in the range of 730-765nm is achieved. |
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| 0.5W 2W | Spatial Output | Based on high-power, low-noise fiber amplification and frequency summing technology, high-power narrow-linewidth laser output with any central wavelength in the range of 810-880nm is achieved. |
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| 6W 10W 15W | Spatial Output | Based on high-power, low-noise fiber amplification and frequency summing technology, high-power narrow-linewidth laser output with any central wavelength in the range of 810-880nm is achieved. |
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| 0.2W 1W | Optical fiber output | By using high-power, low-noise fiber amplification and sum-frequency technology, a high-power narrow-linewidth laser output with a central wavelength of 852nm was obtained. |
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Sum frequency + frequency doubling laser
picture | wavelength | power | Output Mode | Introduction | Features |
 | 0.3W 1W | Spatial Output | Based on high-power, low-noise erbium-doped fiber amplification and quadruple frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 305-350nm is achieved. |
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| 1.5W 2W | Spatial Output | Based on high-power, low-noise erbium-doped fiber amplification and quadruple frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 305-350nm is achieved. |
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| 0.3W 1W | Spatial Output | Based on high-power, low-noise fiber amplification and sum frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 350-365.5nm is achieved. |
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| 2W 4W | Spatial Output | Based on high-power, low-noise fiber amplification and sum frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 350-365.5nm is achieved. |
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| 0.3W 1W | Spatial Output | Based on high-power, low-noise fiber amplification and frequency summing technology, high-power narrow-linewidth laser output with any central wavelength in the range of 405-440nm is achieved. |
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| 2W 4W 8W | Spatial Output | Based on high-power, low-noise fiber amplification and sum-frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 405-440nm is achieved. |
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Sum frequency + quadruple frequency laser
picture | wavelength | power | Output Mode | Introduction | Features |
| 5mW 10mW 100mW | Spatial Output | Based on high-power, low-noise fiber amplification, sum frequency and quadruple frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 205-220nm is achieved. |
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PerciLasers uses ultra-narrow linewidth fiber DFB lasers and fixed external cavity semiconductor lasers as seed sources, uses all-fiber amplifiers for low-noise power amplification, and achieves narrow linewidth, high-power laser output by using the difference frequency scheme of two fundamental frequency lights in the difference frequency crystal, covering a range of 2200nm-4800nm. It has the advantages of narrow linewidth, high power, and long life, and can provide customized development to help your scientific research, development, and production.
Difference Frequency Laser
picture | wavelength | power | Output Mode | Introduction | Features |
 | 0.1W 0.5W 1.5W | Space output fiber output (customizable according to needs | Based on high-power, low-noise fiber amplification and difference frequency technology, high-power narrow-linewidth laser output with any central wavelength in the range of 2200-4800nm is achieved. |
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