Erbium-doped frequency conversion laser(382-800nm)
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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