LW-AR-1064-10-A infrared pulse laser Introduction: LW-AR series infrared lasers use semiconductor pumped laser technology, combined with unique thermal lens compensation laser cavity design, acousto-optic Q-switching technology, efficient frequency conversion technology and high-precision temperature control system. Designed according to the industrial requirements of all solid state lasers, it has the advantages of high stability and good beam quality for a long time, and can provide different power and repetition frequency output. It has been verified for a long time to meet the 24/7 industrial manufacturing environment to meet the needs of different applications. Product application: Microelectronic resistance value adjustment Solar thin film scribing Metal and nonmetal marking Microporous drilling Scientific research light source characteristic: 1. Unique end pumping and frequency doubling technology, small size and long service life 2. Perfect beam quality and directivity 3. High precision temperature control system ensures pulse stability 4. Innovative thermal lens compensation design Technical parameters: Model: LW-AR-1064-10-A Wavelength: 1064nm Maximum continuous power: 10W Repetition frequency: 1 kHz - 100 kHz or continuous Average pulse power: 8W@30kHz Pulse width: 20ns@30kHz Beam quality: TEM00 Flare roundness: ≥ 85% Power stability: ≤ 1% @ RMS Polarization: vertical polarization Cooling mode: air cooling
Introduction: LW-AR series infrared lasers use semiconductor pumped laser technology, combined with unique thermal lens compensation laser cavity design, acousto-optic Q-switching technology, efficient frequency conversion technology and high-precision temperature control system. Designed according to the industrial requirements of all solid state lasers, it has the advantages of high stability and good beam quality for a long time, and can provide different power and repetition frequency output. It has been verified for a long time to meet the 24/7 industrial manufacturing environment to meet the needs of different applications.
