Lasers
Monaco
Advanced, high-power femtosecond lasers for superior edge quality in micromachining and improvements in scientific applications like three-photon microscopy.
24/7 production line lasers delivering game-changing results in mobile device manufacturing, laser glass cutting, OLED display processing, medical devices, wafer dicing, and thin-film cutting. Ideal for optogenetics or use with a tunable OPA for spectroscopy. Now offering a single-box platform for direct integration with 3P Imaging set-ups.
Monaco - Key Options and Parameters
Choice of UV, green, and IR models tailored to achieve the lowest heat-affected zone (HAZ) and maximum throughput. 1035 or 1300 models also available for Multiphoton Microscopy and Photostimulation applications.
Product Specifications
Model Name |
Wavelength |
Output Power Options |
Pulse Repetition Rate |
Standard Pulse Width |
Pulse Tuning Range |
Applications |
Monaco UV |
345±2 nm |
25 W, 30 W, 50 W |
Single shot to >1 MHz (2 MHz for 50 W) |
<350 fs (<400 fs for 50 W) |
N/A |
OLED Module, Contour, Semiconductor Wafer, Thin-Film, Foil, and Display Touch Sensor Cutting, Flex Material Processing |
Monaco 517 |
517±5 nm |
20 W, 30 W |
Single shot to >1 MHz |
<350 fs |
Factory setting |
Polymer, Flex PCB, and IC Package Cutting. Si Wafer Singulation, Medical Device Manufacturing, Thin Metal Foil Cutting and Texturing |
Monaco 1035 |
1035±5 nm |
40 W, 60 W, 150 W |
Single shot to >1 MHz (Optional Performance to 50 MHz) |
<350 fs (<400 for 150 W) |
up to >10 ps |
Photostimulation, Three-Photon Imaging (when paired with Opera F), Glass Cutting & Welding, Thin/Film Cutting, Medical Device Mfg., OPA Pumping for Optogenetics, Large Format OLED Glass Cutting |
Monaco 1300 |
1300±10 nm |
2.5 W |
1, 2, or 4 MHz |
<50 fs |
N/A (Only available with CPC option) |
Three-Photon Imaging, Photostimulation |
Featured Blog
Coherent Monaco 1300 Ultrafast Laser Simplifies Three-Photon Imaging
Discover the Coherent Monaco 1300, a one-box ultrafast 1300 nm light source developed for three-photon imaging.