780nm fiber femtosecond laser
SCI-780-FS
The 780nm fiber femtosecond laser SCI-780-FS is a miniaturized version developed by DeChuang Laser. The optical path and circuit structure are highly integrated, compact and portable, especially suitable for industrial or OEM commercial system integration users. SCI-780-FS has a flexible performance parameter selection range, with a typical output center wavelength of 780±10nm, a repetition frequency range of 80MHz, and a pulse width as low as 100fs or less.
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Laser parameters |
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Operating wavelength |
780±10 nm |
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Pulse width |
<100 fs (typical value 80 fs) |
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Repetition frequency |
80 MHz (50-100 MHz can be customized) |
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Average power |
>60 mW |
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Power stability |
<0.5% RMS(24h@25℃) |
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Polarization extinction ratio |
>20 dB |
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Single pulse energy |
>0.75 nJ |
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Output mode |
Spatial collimation output |
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Electrical, environmental and mechanical parameters |
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Power supply voltage |
12 VDC |
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Operating temperature |
15-35 ℃ |
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Operating humidity |
20~80% ( Non-condensing ) |
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Machine weight |
2 kg |
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Appearance dimensions |
235×140×86 mm |
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Cooling method |
Air cooling |
The 780nm fiber femtosecond laser SCI-780-FS is a miniaturized version provided by DeChuang Laser. The optical path and circuit structure are highly integrated, compact and portable, especially suitable for industrial or OEM commercial system integration users. The 780nm femtosecond fiber laser SCI-780-FS has a flexible performance parameter selection range, with a typical output center wavelength of 780±10nm, a repetition frequency range of 80MHz, and a pulse width as low as 100fs.
The 780nm fiber femtosecond laser SCI-780-FS is based on perfect fully automatic mode-locked pulses, unique low-noise fiber amplification technology, high-efficiency nonlinear frequency doubling technology, and reliable pump protection technology, making the fiber laser have excellent long-term stability and reliability. This product is an optoelectronic integrated design, contact passive heat dissipation, and no redundant control module; it can be turned on by short-range turn-key or remotely controlled by software. This product can provide low power and high power configurations to achieve the best cost performance, and can be applied to THz spectroscopy, biomedicine, optical communication and other application fields
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Technical advantages: ·Customizable wavelength ·High peak power ·Linear polarization ·Diffraction-limited beam quality |
Application fields: ·Biophotonics ·Terahertz radiation ·Optical measurement ·Two-photon imaging |
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