VaryDisk F240
Thin Disk DPSS Laser, fs Pulsed, 1030 nm, up to 150 W / 1 mJ, 100 kHz, 500 fs to 2 ps
Key Features:
- Robust design
- Customizable output parameters
- Up to 150 W average power @ 1030 nm (240 W – power upgrade)
- Power & energy stability
- Customizable GUI
- Pulse duration adjustable: 2 ps < … < 500 fs
- Pulse energy up to 1 mJ … 2 mJ
- High beam quality: M^2 < 1.4
- 20 min warm-up time
There are many configurations and options available. If you do not see exactly what you need below, please contact us!
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The VaryDisk Series is a versatile family of thin-disk laser systems that provide high pulse energies at high average powers and are suitable for lab or industrial use. These thin-disk regenerative amplifiers offer a range of output specifications and customization options, depending on the configuration and your specific application needs. The base configurations provide options for pulse widths in the fs, ps, and ns range, up to 1000 W average power, 150 mJ pulse energy, 1 kHz to 125 kHz rep. rate, and 1030 nm, 515 nm (SHG), and 343 nm (THG) wavelength options.
Benefits:
- High energy, multi-milli-Joule laser platform:
- Capable of delivering high-energy output, which means they can be used for a wide range of applications, including materials processing, scientific research, and more.
- Amplification of fs, ps, or ns pulses:
- Utilize a thin disk regenerative amplifier, which provides high amplification factors for fs, ps, or ns pulses, making them ideal for a wide range of applications where high peak power and high repetition rates are required.
- Adjustable output specifications:
- Adjustable output specifications to meet the specific needs of each customer, ensuring that they get the performance and capabilities they need.
- Customizable visual control interface:
- Visual control interface makes it easy for users to monitor and adjust laser performance. Additionally, they are programmable, which means users can customize laser performance and operating modes
- Various operating modes and different pulse characteristics:
- Range of operating modes and pulse characteristics available, which makes them highly versatile and suitable for a wide range of applications. This allows users to achieve the exact performance they need for their specific use case.
The VaryDisk series lasers offer versatile and customizable solutions for industrial, scientific, and research applications. They feature high-energy output and precise pulse amplification with adjustable output specifications and programmable operating modes. The VaryDisk ENERGY, in particular, is a fully functional laser system with chirped pulse amplification suitable for laboratory investigations and/or industrial use. Customers can tailor the output specifications of these thin disk laser systems to their specific needs. Overall, the VaryDisk series lasers provide easy visual control and a range of operating modes and pulse characteristics, making them an ideal choice for a wide range of applications.
If you have any questions or need more information, please contact us.
Options
- Modulator / pulse picker
- SHG (515 nm) / THG (343 nm)
- Multiple pulse train (switchable pulse durations from pulse to pulse)
- Variable repetition rate
- Up to 240 W with power upgrade
- Motorized compressor (MC) for an adjustable pulse duration adjustable 2 ps … 500 fs
- Shorter pulse durations < 350 fs (even shorter upon request: FEMTO+)
- Multiple seed lasers (e.g. fs, ps, ns) for mixed pulse trains (MPT)
- Higher repetition rates of up to 1 MHz
- Pulse picker (PP-6, PP-9, PP-12)
- Active stabilizer (RMS+) for improved RMS
- High speed warm up routine (HS)
Applications
The extremely short pulse durations in the range of a few hundred femtoseconds allow material processing with almost complete evaporation of the material. Compared to picosecond pulses, the higher peak power densities allow a flexible input-coupling of the radiation into various types of material. Furthermore, high ablation efficiency can be obtained and the thermal impact on the material further minimized. Femtosecond material processing is particularly suited for drilling and precision ablation of glass. Application examples, showing the capabilities of the VaryDisk laser system, were demonstrated in our application lab.