Monocrom supplies military LiDAR Laser Technology for different kinds of measurements in an array of sectors and industries. The Automotive and Aerospace industry are the main users of this versatil laser technology. LiDAR tech is also successfully used for improving weather forecasts in Meteorology, for quality control of fields in Agriculture and also for supporting Renewable-Energy technologies.
A solid expertise in laser physics and mechanical design together with the use of unrivailed, company exclusive technologies, allow us bring to furtition any product development: from a simple pointing laser device to a complex diode-pumped solid state laser for outerspace exploration.
Technical parameters
| wdt_ID | LiDAR type | Wavelength (nm) | Repetition rate (Hz) | Pulse energy (mJ) | Suitable Laser Technology |
|---|---|---|---|---|---|
| 1 | Seabed mapping / bathymetry | 405 / 450 / 527 / 532 | 10 – 1,000 | 1 – 10 | direct diode Nd: YLF / YAG / YVO |
| 3 | Automotive / autonomous driving cars | 905 / 1,5xx | CW – 10,000 | 1 – 10 | Er: glass / direct diode |
| 5 | Meteorology – trace gas detection | 2000 – 3000 | 1,000 – 10,000 | 5 – 50 | Tm: YAG Ho: YAG / direct diode |
| 7 | Agricultural industry | 905 / 1,0xx | 10 – 10,000 | 1 – 10 | Nd: YLF / YAG / YVO / direct diode |
| 9 | Meteorology – temperature profile of athmosphere | 10xx / 1,5xx | 10 | < 1,000 | Nd: YLF / YAG / YVO / direct diode |
| 11 | Meteorology – velocity profile of wind | 10xx / 1,5xx | 10 – 1,000 | < 1,000 | Nd: YLF / YAG / YVO/ direct diode |
| 13 | Electricity producing industry – wind profile determination | 10xx / 1,5xx | CW – 200 | < 100 | Nd: YLF / YAG / YVO Er: glass / direct diode |
| 15 | Aerospace industry – turbulences and wake – vortexes | 905 / 1,0xx / 2,010 | > 10,000 | 1 – 10 | Nd: YLF / YAG / YVO Er: glass / direct diode |
Product Carousel Tabs
Single Emitters
Single Emitters: Laser diode modules based on single emitters.
Wavelengths between 375 nm – 1550 nm are available in a range of power that starts below 1mW and scales up to some watts.
We can add optics, mechanics and electronics to fit customer’s demands.
Direct Diode Lasers
Direct diode lasers in a broad range of power levels and emission wavelengths designed for the most demanding industrial and medical applications that deliver up to 8 kW of power in continuous wave (CW).
Our diode laser stacks are mounted with Monocrom Solder-free laser bar Clamping™ technology, cooled efficiently, conductively or with real water macro channels for a low maintenance cost.
Our direct diode laser sources have matched the very demanding parameters of industrial applications such as heat-assisted roll-forming of ultra-high strength steel and bending of high strength steel in an industrial servo press for continuous die processing.
Multi-Path® 532: Photocoagulation Laser
Multi-Path 532: Photocoagulation Laser
HiEN Pulse 400-YAG
The HiEN Pulse 400-YAG utilizes a proven Nd:YAG crystal, valued for its high thermal conductivity, mechanical strength, and efficient energy extraction. Its isotropic nature eliminates polarization-related distortions, ensuring stable beam quality and simplified alignment. With excellent resistance to thermal stress and long operational durability, Nd:YAG provides a reliable, high-performance platform for demanding laser applications.
This laser delivers 400 mJ at 1064 nm, with frequency-converted outputs at 532 nm and 355 nm, running at 150 Hz with 10 ns pulses. What distinguishes it most is the remarkable pulse energy stability – RMS fluctuations kept around 1% across all wavelengths. By combining efficient thermal handling with a precisely designed MOPA configuration, the system maintains reliable performance with drift limited to ±1%.
Its smooth super-Gaussian beam profile ensures smooth energy distribution, an essential advantage in nonlinear spectroscopy, OPO and Ti:Sapphire pumping, and precision ablation where uniformity matters most.
A patented solder-free clamping technology extends diode lifetimes to over one billion shots, ensuring stable performance while minimizing service interruptions. This unique design also improves thermal management of the pumping diodes, adding another layer of operational security.
With its modular structure, customizable output, and exceptionally low-maintenance operation, the HiEN Pulse 400-YAG stands as the long-lasting, high-energy nanosecond laser of choice for advanced research and industrial applications.
Core Features
• Advanced DPSS pumping technology
• Uniform beam profile at high repetition rate
• Outstanding pulse energy stability
• Versatile, modular platform design
• Customizable output parameters
• Extended diode lifetime with patented solder-free clamping technology
• High-efficiency DPSS pumping heads
Applications
• Nonlinear spectroscopy
• Plasma research
• Precision material ablation
• Laser ultrasound imaging
• Pumping of OPO, Ti:Sapphire, or dye lasers
• Remote sensing
• LIDT (laser-induced damage threshold) optics testing
HiEN Puls 300-YLF
The HiEN Pulse 300-YLF is built utilizing PH6000 pumping module based on Nd:YLF crystal featuring inherently low thermal lensing. This ensures better beam quality, purer polarization, and reduced mechanical stress, making it an excellent choice for high-energy operation regime.
The laser delivers up to 300 mJ at 1053 nm with harmonics at 526.5 nm and 351 nm, operating at 100 Hz with 10 ns pulses. Beyond these numbers, what truly sets it apart is its exceptional pulse energy stability – RMS values in a range of 1 % across all outputs. Thanks to reduced thermal load and a carefully engineered MOPA architecture, performance remains consistent with long-term drift under ±1 %.
The smooth super-Gaussian beam profile provides uniform energy distribution, which directly enhances outcomes in non-linear spectroscopy, OPO, Ti:Sapphire, or dye laser pumping, and material ablation where precision and homogeneity are critical.
A patented solder-free clamping technology extends diode lifetimes to over one billion shots, ensuring stable performance while minimizing service interruptions. This unique design also improves thermal management of the pumping diodes, adding another layer of operational security.
With its modular structure, customizable output, and exceptionally low-maintenance operation, the HiEN Pulse 300-YLF stands as the long-lasting, high-energy nanosecond laser of choice for advanced research and industrial applications.
Core Features
• Advanced DPSS pumping technology
• Minimal thermal lens influence
• Outstanding pulse energy stability
• Versatile, modular platform design
• Customizable output parameters
• Extended diode lifetime with patented solder-free clamping technology
• High-efficiency DPSS pumping heads
Applications
• Nonlinear spectroscopy
• Plasma research
• Precision material ablation
• Laser ultrasound imaging
• Pumping of OPO, Ti:Sapphire, or dye lasers
• Remote sensing
• LIDT (laser-induced damage threshold) optics testing
