Scientific Research
Laser Technology in Scientific Research
Scientific applications focus on extreme energy storage, high repetition rates, and wavelength flexibility. These technologies are deployed across several critical research domains:
- High-Energy Physics: Supporting nuclear fusion research and the operation of particle accelerators.
- Atmospheric & Environmental Science: Utilizing LiDAR for atmospheric sounding, topographic mapping, and space debris monitoring.
- Spectroscopic Analysis: Enabling precise identification of materials and substances through laser-induced spectroscopy.
- Oceanographic Research: Developing solid-state blue-green lasers for deep-sea cross-plane communication at depths of up to 200 meters.
Benefits of Featured Scientific Laser Types
The document outlines several technical advantages that make these solid-state lasers suitable for complex research environments:
- Ultrashort Pulse Generation: High energy storage capacity and wide fluorescence linewidth in media like neodymium glass are ideal for generating ultrashort pulses.
- Full-Band Tuning: Full-band lasers allow researchers to tune high-repetition-rate outputs from UV to mid-IR (210–2600nm) with 0.1nm precision for spectral detection.
- Extreme Environmental Stability: Blue-green lasers are designed to work stably in complex sea-surface environments with power instability of <1 %.
- High Energy Density: Slatted laser amplifiers provide the high peak power (GW class) and high energy density required for precise industrial and scientific processing.
Scientific Applications and Laser Types
| Scientific Application / Research Field | Laser Beam Type / Technology |
| Nuclear Fusion & Particle Accelerators | High-energy slatted laser amplifiers |
| LiDAR & Remote Sensing | High peak power (300MW+) narrow pulse lasers |
| Deep-Sea Communication | Short-pulse solid-state blue-green lasers (532nm, 486.1nm) |
| Spectroscopic Analysis | Full-band/Wide-tuned high-repetition rate lasers |
| Laser-Induced Spectroscopy | High-repetition-rate 532nm solid-state lasers |
Technical Specifications for Research Lasers
Based on the documentation, here are the parameters for lasers optimized for high-end research:
- Full-Band/Wide-Tuned Laser:
- Wavelength Range: 210~2500nm (UV to mid-IR).
- Adjust Accuracy: 0.1nm.
- Pulse Width: ~10ns.
- Blue-Green Laser for Deep-Sea Communication:
- Pulse Width: ≤ 2 ns.
- Average Power: ≥ 10 W at 50kHz.
- Power Stability: < 2 % RMS over 10 hours.
- High-energy ZIG-ZAG Slab Laser:
- Single Pulse Energy: ≥ 1 J at 1064nm.
- Average Power: ≥ 1000 W.
- Repetition Rate: 1Hz~1000Hz.
Product Scientific Infos
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