YLR- LP Series: 10 to 500W Single Mode Linearly Polarized Ytterbium Fiber Laser0 pages
10W to 500W CW Single Mode Linearly PolarizedYb Fiber Laser Systems
nnMain Features:10 to 500W Output Optical Power Linear Polarization (ER > 17dB) 1060 to 1080nm Wavelength Range Over 20% Wall-Plug Efficiency TEMoo(M2<1.1) Beam Quality Air or Water Cooled Versions >50,000 hours Pump Diode Lifetime Maintenance Free Operation Single Mode Fiber Delivery >
nnApplications:YLR-LP series idealyoptimized for many applications.Adecade of intensive work on development and manufacturing of high power fiber laser sys-tems, as well as >60 million of accumulated device-hours in-house real-time stress testing of
pump diodes and finished laser systems allows IPG to ensure that this product is highly reli-
able and proven.Users can customize the 2 Year Waranty YLR-LP Material Processing Series was developed to meetfast growing demand of industrial, scientific and medical markets for a robust, turnkey and
maintenance-free solution that can be easily integrated into an instrument, scientific experi-
ment, OEM machine or an automated production line. The main difference of this series com-
pare to YLR-SM is that output light is linearly polarized that makes YLR Series laser systems are factory sealed so there is no need for alignment or maintenance.The laser system plugs into a standard power line, and will operate immediately. Extensive
front panel and RS232 or papallel and analog interfaces will easily allow you to integrate this
fiber laser system to your setup. Each laser system is provided with an integrated single-mode
fiber delivery cable, of customer-selected length, terminated by state-of-the-artӔ output col-
limator with a beam diameter of 5-8 mm. YLR-LP Series to meet their requirements by selecting outputpower, wavelength, linewidth, mode of operation, control mode and computer interface. All SHG applications Medical IPG's YLR-LP Series represents a revolutionary new generation of diode-pumped single-mode, linearly polarized CWYtterbium fiber laser systems of near infrared spectral range
with a unique combination of high power, ideal beam quality, fiber delivery and high wall-
plug efficiency. These laser systems demonstrate a reliability that is unmatched by any other
kind of solid state or gas laser system. Wide selectivity of operating wavelengths, ultra-low
amplitude noise, high stability and ultra-long pump diode lifetime complete an impressive list
of advantages of this modern fiber laser system. The >