Definition
The laser is a picosecond-level ultrashort pulse laser based on fiber mode-locking technology, with an output wavelength of 1064nm. The 1064nm band is located in the near-infrared region and is a typical gain wavelength for neodymium-doped (Nd³⁺) or ytterbium-doped (Yb³⁺) fibers. It features high quantum efficiency, low thermal load, and good beam quality, making it suitable for high-energy, high-stability applications. With a pulse width <15ps, it falls into the ultrashort pulse category, enabling high peak power and low thermal damage, and is suitable for nonlinear optical processes (such as frequency doubling, sum-frequency generation, and optical parametric oscillations).
Feature
Pulse Width: <15 ps
High Reliability
High Integration of Optical and Circuit Paths
High Peak Power
Ultrashort Pulses
Application
Ultra-fast Seed Sources
Ultra-continuum Generation
Time-Resolved Fluorescence Excitation
Nonlinear Optics
Laser Measurement
Specification
Parameter | Unit | Value |
Central wavelength | nm | 1064±2 |
Pulse width | ps | <15 |
Repetition frequency | MHz | 50 (20-50 MHz customize) |
Average power | mW | >200 |
Power stability |
| <0.5% RMS (12hrs@25℃) |
PER | dB | >20 |
Fiber length | m | 1 (customize) |
Output |
| polarization-maintaining SM fiber,FC/APC Narrow-key jumper wire |
Power supply | V | 12 VDC |
Operating temperature | ℃ | 15-35 |
Operating humidity |
| 20~80% (non-condensing) |
Dimension | mm | 204×127×70 |
Cooling method |
| Air-cooled |
Test data
Dimension
joe@zg-photonics.com
0816 - 2384466
