SMSL Series – High-Energy Low-Repetition Solid-State Laser
The SMSL series high-energy low-repetition solid-state laser delivers output energy up to 100 mJ, with wavelength extension available at 532 nm and 355 nm.
The system adopts an integrated laser head and power supply design, featuring a compact structure, low power consumption, and full air-cooling. It is suitable for complex industrial environments, offering high structural stability and reliable 24/7 continuous operation.
Key Features
- Diode-pumped design, long lifetime
- Excellent temperature adaptability
- 24/7 continuous operation
- Mature technology, high reliability
Applications
- Laser radar (LiDAR)
- LIBS / LIF
- Laser ultrasonics
- Biomedical applications
SMSL Technical Parameters
Models
- SMSL-100M
- SMSL-200M
Optical Parameters
- Output energy @1064 nm: ≥100 mJ / ≥180 mJ
- Output energy @532 nm: ≥50 mJ / ≥100 mJ
- Output energy @355 nm: ≥30 mJ / ≥70 mJ
- Energy stability (RMS): ≤2.5% / ≤3%
- Pulse width: 6–8 ns
- Repetition rate: 20 Hz / 10 Hz
- Beam divergence: ≤3 mrad (standard), ≤1 mrad (high-performance)
- Beam diameter: ~5 mm
Functional Parameters
- Communication interface: RS422 / Ethernet
- Trigger mode: Internal / External
- Synchronization signal: Electrical sync / Optical sync
- Power supply: DC 24V
- Cooling: Air cooling
- Power consumption: ≤150 W / ≤400 W
Environmental Parameters
- Operating temperature:
- Standard: –20°C to +55°C
- High-performance: 10°C to 35°C
- Storage temperature: –20°C to +50°C
- Humidity: 0–80% RH
- Vibration: Road transportation vibration
SMSL Mechanical Dimensions
- SMSL-100M laser head dimensions
- SMSL-200M laser head dimensions
- Installation and mounting drawings
SMSL Series – Diode-Pumped High Energy Laser Systems
High-Peak Power Laser Solutions by Solid Laser
SMSL Series from Solid Laser is developed to deliver high-energy laser performance with precision and confidence. The systems are designed for professional research, analytical, and industrial settings, and they offer powerful output, precise pulse behavior, and reliable operation, making them a trusted choice for applications where performance consistency matters most.
The SMSL Series combines Sub-nanosecond pulsed laser and Nanosecond DPSS laser technologies for advanced analytical applications.
Importance of SMSL Series Offered by Solid Laser
At Solid Laser, we understand the need for controlled high-energy pulse generation in modern laboratories and field systems. The SMSL Series is designed to deliver high-quality peak power, precise timing, and system integration.
With optimized thermal management and stable optical architecture, our Diode-Pumped High Energy Lasers ensure that the output remains stable even under extended operation.
The SMSL Series is engineered to deliver Stable Pulse Energy and Excellent Beam Quality, helping users achieve consistent results in demanding scientific and industrial applications. Its flexible architecture supports both Short-pulse DPSS laser and high-energy pulse generation requirements.
Key Advantages of the SMSL Series:
- High peak energy with controlled pulse output.
- Clean and stable beam profile.
- High efficiency diode-pumped design with increased service life.
- Small size to facilitate system integration.
- Adjustable plans to diverse technical requirements.
Pulse Technologies Offered by Our Company
To match various application requirements, the SMSL Series supports various pulse formats as discussed below:
Sub-nanosecond Pulsed Laser Solutions
Our Sub-nanosecond pulsed laser models provide ultra-fast pulses with low thermal impact, and hence they are ideal for precision-sensitive applications and low-heat interaction processes.
The short pulse duration helps minimize heat-affected zones during material processing, improving accuracy while reducing unwanted thermal effects.
Nanosecond DPSS Laser Platforms
The Nanosecond DPSS laser systems offer stable nanosecond-range pulses, which are suitable for spectroscopy, plasma generation, and sophisticated material diagnostics.
These systems support Precision Pulse Control and reliable pulse timing, making them suitable for advanced testing and analytical applications.
The platform is optimized for Nanosecond DPSS laser operation in research and industrial environments.
Short-Pulse DPSS Laser Options
The Short-pulse DPSS laser systems we provide have a better control of peak power and precise temporal response to time-sensitive experiments and optical studies with high resolution.This enables reliable performance in applications requiring Sub-nanosecond pulsed laser precision and stability.
SMSL Series as a LIBS Laser Source
Solid Laser designs the SMSL Series to function effectively as a LIBS Laser Source for Laser-Induced Breakdown Spectroscopy. Stable beam delivery and accurate pulse energy allow stable plasma formation, as well as reliable spectral analysis. This feature makes the SMSL Series very effective for rapid material identification and industry examination.
Its proven design strengthens performance as a LIBS Laser Source for advanced material analysis. The platform also functions as a reliable Plasma Generation Laser, supporting accurate material analysis and Laser-Induced Breakdown Spectroscopy applications that require high-energy pulse performance.
Common Application Areas Include:
- Material composition analysis.
- Geology and environmental research.
- Monitoring of industrial processes.
- Surface diagnostics
- Analytical laboratory research.
Built by Our Team for Long-Term Performance
Each SMSL laser system is constructed using precision optical assemblies and durable components. Our diode-pumped design is efficient in terms of energy as well as lowering the cost of maintenance as compared to traditional systems.
Performance-Focused Features:
- Stable diode pumping technology.
- Accurate pulse triggering control.
- Low noise energy output.
- Strong beam stability.
- High Peak Power Laser output
- Modular, integration-ready structure.
Customization & OEM Support Provided by Our Company
Solid Laser collaborates with research institutions and equipment manufacturers to customize SMSL systems for specific needs. We have complete technical guidance from our engineering team to support the smooth implementation and system performance.
Our customization Options Include:
- Pulse energy adjustment
- Pulse duration tuning
- Wavelength configuration
- Integrated control electronics
- OEM-ready mechanical packaging
Frequently Asked Questions
Its compact design supports reliable operation in demanding environments requiring a LIBS Laser Source.
The SMSL Series allows highly stabilized pulse energy between successive pulses, helping researchers and engineers to get precise and repeatable measurement results. This stability is particularly valuable in Nanosecond DPSS laser analytical applications.
Yes, our team can adjust wavelengths to fit the requirements of various applications like spectroscopy, diagnostics and material analysis systems. Customization options support diverse research requirements and specialized laser integration projects.
Yes, Solid Laser offers technical support and engineering support to help OEMs to integrate SMSL laser systems in their equipment with ease. Our team assists throughout implementation to ensure optimal system performance.
The SMSL Series can be used as a Material Characterization Laser, providing stable pulse output and reliable performance for advanced analytical studies. It also functions effectively as a LIBS Laser Source for testing.
Precision Optical Alignment is essential to ensure beam stability, maintain output quality and achieve reliable operation in different scientific and industrial applications. This approach supports consistent performance from Short-pulse DPSS laser systems.
Yes, the SMSL Series is used in Scientific Instrumentation such as spectroscopy, diagnostics, and other research uses where laser performance must be controlled to a high degree of precision. The platform supports demanding experiments requiring stable pulse characteristics and accuracy.
Yes, the SMSL Series can be used as a reliable High Energy Laser Platform, providing controlled pulse output for challenging analytical and research applications. Its Diode-Pumped High Energy Lasers deliver dependable performance under demanding conditions.
SMSL lasers are widely incorporated in Scientific Instrumentation for material analysis, spectroscopy, and other advanced laboratory testing. They are also suitable for applications using Sub-nanosecond pulsed laser technology.
Our engineering team implements Precision Optical Alignment and extensive testing to ensure reliable performance and durability. Every system undergoes verification to maintain consistent operational and analytical accuracy.
Partner with Solid Laser for High-Energy Precision
Choose the SMSL Series from Solid Laser for reliable Diode-Pumped High Energy Laser solutions designed to support modern scientific discovery and industrial innovation.