Products
We combine the use of cutting-edge technologies on an integrated series of high precision processes, supported by a clean room facilities and world class capabilities.
Our Products and Modules
Single Bar Diode Lasers
Single Bar Diode Lasers
Laser diode packages for a single laser bar with conduction or water macro-channels cooling with great heat dissipation and an unprecedent low smile.
Our single bar diode laser mounts are clamped with Monocrom Solder-free laser bar Clamping™ Technique that improves overall performance and prolongs laser diode life-time.
There is an option to add a variety of optics assemblies to collimate both optical axes.
Vertical Diode Lasers
Vertical diode laser assemblies, efficiently cooled with conduction or millimeter water channels cooling circuit. Our vertically structured packages are mounted with a Patented Solder-free Clamping™ technique that allows high cooling efficiency and large operation and storage temperature range. The Innovative Monocrom Clamping™ technology , designed and developed by Monocrom, eliminates the undesired “smile effect” and prolongs laser lifetime.
Choose between different architectures, number of laser bars per stack and tune the central wavelength to your needs. Full range of wavelength offered: 760 nm, 808nm, 880 nm, 915 nm, 940 nm, 976 nm, 1060 nm, 1470 nm, 1550 nm, 1940 nm.
Horizontal Diode Laser Arrays
Horizontal Diode Laser Arrays – Conducticon or water- cooled linear diode laser arrays operating in CW or QCW mode. Wavelength range starts at 640 nm up to 2200 nm. The stacks are mounted using a patented Solder-free Clamping™ own Technology that eliminates “smile effect”, enhances efficient cooling and extends laser useful life-time. Our patented Clamping™ technology is unique of its kind and is exclusively used in Monocrom diode laser packages.
The number of assembled stacks can be set according to clients’ needs. The stacks can be connected separately or in a series for individual or set control.
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.
Fiber-coupled Lasers
Fiber-coupled Lasers
Highly efficient fiber coupled diode lasers with Monocrom Solder-free laser bar Clamping™ technology. The lack of a “smile” effect results in an optimum coupling efficiency to the optical fiber. We also provide wavelength stabilized fiber-coupled laser modules with a grating for wavelength locking. Having a low smile results in an exceptionally well-controlled feedback, which increases the locking efficiency and production repeatability.
For the most demanding applications of high brightness (radiance), we offer fiber-coupled high power diode laser systems capable of delivering 1 kW in power in continuous wave (CW) at a single wavelength.
Multi-Path® 532: Photocoagulation Laser
Multi-Path 532: Photocoagulation Laser
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
QCW Pumping Source PH450-PH1800
Reliable laser pumping units that operate in quasi continous wave (QCW).
A cylindrical symmetry design allows rotation of the pumping chamber giving flexibility during the production and optimization of a laser system.
The pumping laser diode bars are mounted using our patented solder-free Clamping™ technology.
No mechanical stress Our patented solder-free technology is used in our diode bars stacks. Thanks to it clamped bars expand and contract freely during the thermal cicles of the pulsed regime avoiding mechanical stress.
Encapsulated Diode Laser Stack without Tip
Encapsulated Diode Laser Stack without Tip
Encapsulated Diode Laser Stack without Tip
We supply Plug & Play Laser Diode modules with single or multiple
laser stacks (single or combined wavelengths). Encapsulated laser
stacks are easier to handle because the laser bar is kept into a sealed
case isolated from exterior. No clean room conditions are necessary
when manipulating these laser devices. A variety of tips and optics are
available.
Laser Diode Modules without
Laser Diode Modules with tip
Download Hair removal catalogue >>
***Customized optics available on request
D36: ø 36 mm – one stack per module
D49: ø 49 mm – one or two stacks of
same/different wavelengths
Encapsulated Diode Laser Stack with Tip
Encapsulated Diode Laser Stack with Tip
Encapsulated Diode Laser Stack with Tip
We supply Plug & Play Laser Diode modules with single or multiple
laser stacks (single or combined wavelengths). Encapsulated laser
stacks are easier to handle because the laser bar is kept into a sealed
case isolated from exterior. No clean room conditions are necessary
when manipulating these laser devices. A variety of tips and optics are
available.
Laser Diode Modules without
Laser Diode Modules with tip
Download Hair removal catalogue >>
***Customized optics available on request
D36: ø 36 mm – one stack per module
D49: ø 49 mm – one or two stacks of same/different wavelengths
Single Bar Diode Lasers
Single Bar Diode Lasers
Laser diode packages for a single laser bar with conduction or water macro-channels cooling with great heat dissipation and an unprecedent low smile.
Our single bar diode laser mounts are clamped with Monocrom Solder-free laser bar Clamping™ Technique that improves overall performance and prolongs laser diode life-time.
There is an option to add a variety of optics assemblies to collimate both optical axes.
Vertical Diode Lasers
Vertical diode laser assemblies, efficiently cooled with conduction or millimeter water channels cooling circuit. Our vertically structured packages are mounted with a Patented Solder-free Clamping™ technique that allows high cooling efficiency and large operation and storage temperature range. The Innovative Monocrom Clamping™ technology , designed and developed by Monocrom, eliminates the undesired “smile effect” and prolongs laser lifetime.
Choose between different architectures, number of laser bars per stack and tune the central wavelength to your needs. Full range of wavelength offered: 760 nm, 808nm, 880 nm, 915 nm, 940 nm, 976 nm, 1060 nm, 1470 nm, 1550 nm, 1940 nm.
Horizontal Diode Laser Arrays
Horizontal Diode Laser Arrays – Conducticon or water- cooled linear diode laser arrays operating in CW or QCW mode. Wavelength range starts at 640 nm up to 2200 nm. The stacks are mounted using a patented Solder-free Clamping™ own Technology that eliminates “smile effect”, enhances efficient cooling and extends laser useful life-time. Our patented Clamping™ technology is unique of its kind and is exclusively used in Monocrom diode laser packages.
The number of assembled stacks can be set according to clients’ needs. The stacks can be connected separately or in a series for individual or set control.
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.
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
CW Pumping Source PH120 – PH300
CW Pumping Source PH120 – PH300
Pump heads for laser pumping, pumped with 120 W – 300 W at continuos wave (CW).
We offer all of them with Nd:YAG or Nd:YLF rod material.
The cylindrical symmetry of these pumping units allows rotation of the pumping chamber giving flexibility during the production and optimization of a laser system. The pumping laser diode bars are mounted using our patented solder-free clamping technology. Exclusively used by Monocrom.
QCW Pumping Source PH450-PH1800
Reliable laser pumping units that operate in quasi continous wave (QCW).
A cylindrical symmetry design allows rotation of the pumping chamber giving flexibility during the production and optimization of a laser system.
The pumping laser diode bars are mounted using our patented solder-free Clamping™ technology.
No mechanical stress Our patented solder-free technology is used in our diode bars stacks. Thanks to it clamped bars expand and contract freely during the thermal cicles of the pulsed regime avoiding mechanical stress.
HeatMe
Edge-emitting Solution for Industrial Heating
Direct diode solution allowing you controlling your Industrial heating application more accurately.
Controlling each and every part of the HeatMe module independently enabling much more flexibility with the targeted material.
This cost-effective solution is the next evolution in Heat treatment applications providing a scalable, flexible state of the art Heat source, which can be optimize to the necessity of your application.
Horizontal Diode Laser Arrays
Horizontal Diode Laser Arrays – Conducticon or water- cooled linear diode laser arrays operating in CW or QCW mode. Wavelength range starts at 640 nm up to 2200 nm. The stacks are mounted using a patented Solder-free Clamping™ own Technology that eliminates “smile effect”, enhances efficient cooling and extends laser useful life-time. Our patented Clamping™ technology is unique of its kind and is exclusively used in Monocrom diode laser packages.
The number of assembled stacks can be set according to clients’ needs. The stacks can be connected separately or in a series for individual or set control.
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.
Fiber-coupled Lasers
Fiber-coupled Lasers
Highly efficient fiber coupled diode lasers with Monocrom Solder-free laser bar Clamping™ technology. The lack of a “smile” effect results in an optimum coupling efficiency to the optical fiber. We also provide wavelength stabilized fiber-coupled laser modules with a grating for wavelength locking. Having a low smile results in an exceptionally well-controlled feedback, which increases the locking efficiency and production repeatability.
For the most demanding applications of high brightness (radiance), we offer fiber-coupled high power diode laser systems capable of delivering 1 kW in power in continuous wave (CW) at a single wavelength.
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
CW Pumping Source PH120 – PH300
CW Pumping Source PH120 – PH300
Pump heads for laser pumping, pumped with 120 W – 300 W at continuos wave (CW).
We offer all of them with Nd:YAG or Nd:YLF rod material.
The cylindrical symmetry of these pumping units allows rotation of the pumping chamber giving flexibility during the production and optimization of a laser system. The pumping laser diode bars are mounted using our patented solder-free clamping technology. Exclusively used by Monocrom.
QCW Pumping Source PH450-PH1800
Reliable laser pumping units that operate in quasi continous wave (QCW).
A cylindrical symmetry design allows rotation of the pumping chamber giving flexibility during the production and optimization of a laser system.
The pumping laser diode bars are mounted using our patented solder-free Clamping™ technology.
No mechanical stress Our patented solder-free technology is used in our diode bars stacks. Thanks to it clamped bars expand and contract freely during the thermal cicles of the pulsed regime avoiding mechanical stress.
FLEX M-2000 Series
Introducing FLEX M-2000 Series, Fiber coupled solution in the 2 µm wavelength range (2000 nm laser) for Soft Tissue Surgery, Laser Lithotripsy and Endourology procedures.
In the new M-2000 the wavelength can be customized to successfully match the absorption peak of the targeted tissue. In this way, high ablation rate is assured, leading to better treatment results and shorter procedures.
This is suitable for Medical applications. This solution comes to the market to solve the wavelength limitations and as a cost-efficient alternative of others, commonly used lasers, such as solid-state Holmium:YAG and Thulium fiber lasers. While the wavelength emission of these lasers do not exactly match the water peak absorption around 2 µm, FLEX M-2000 offers the possibility to adjust the wavelength by design to perfectly match the water peak absorption, which results in a more efficient ablation.
Broad variety of optical fiber core diameters are offered to best match application needs.
LiOM Series
Introducing LiOM Series, S6, S9, S10 of very special, short pulse, fiber-coupled lasers for LiDAR applications. These lasers are designed for scanning, flash or iToF LiDAR applications, and can be used for others as well. All these modules are housed in the same enclosure and equipped with a “detachable” fiber. The driver electronics are located in the housing and the customer only has to provide the necessary DC voltage supply to operate the laser.
Single Bar Diode Lasers
Single Bar Diode Lasers
Laser diode packages for a single laser bar with conduction or water macro-channels cooling with great heat dissipation and an unprecedent low smile.
Our single bar diode laser mounts are clamped with Monocrom Solder-free laser bar Clamping™ Technique that improves overall performance and prolongs laser diode life-time.
There is an option to add a variety of optics assemblies to collimate both optical axes.
Vertical Diode Lasers
Vertical diode laser assemblies, efficiently cooled with conduction or millimeter water channels cooling circuit. Our vertically structured packages are mounted with a Patented Solder-free Clamping™ technique that allows high cooling efficiency and large operation and storage temperature range. The Innovative Monocrom Clamping™ technology , designed and developed by Monocrom, eliminates the undesired “smile effect” and prolongs laser lifetime.
Choose between different architectures, number of laser bars per stack and tune the central wavelength to your needs. Full range of wavelength offered: 760 nm, 808nm, 880 nm, 915 nm, 940 nm, 976 nm, 1060 nm, 1470 nm, 1550 nm, 1940 nm.
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.
Fiber-coupled Lasers
Fiber-coupled Lasers
Highly efficient fiber coupled diode lasers with Monocrom Solder-free laser bar Clamping™ technology. The lack of a “smile” effect results in an optimum coupling efficiency to the optical fiber. We also provide wavelength stabilized fiber-coupled laser modules with a grating for wavelength locking. Having a low smile results in an exceptionally well-controlled feedback, which increases the locking efficiency and production repeatability.
For the most demanding applications of high brightness (radiance), we offer fiber-coupled high power diode laser systems capable of delivering 1 kW in power in continuous wave (CW) at a single wavelength.
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
CW Pumping Source PH120 – PH300
CW Pumping Source PH120 – PH300
Pump heads for laser pumping, pumped with 120 W – 300 W at continuos wave (CW).
We offer all of them with Nd:YAG or Nd:YLF rod material.
The cylindrical symmetry of these pumping units allows rotation of the pumping chamber giving flexibility during the production and optimization of a laser system. The pumping laser diode bars are mounted using our patented solder-free clamping technology. Exclusively used by Monocrom.
QCW Pumping Source PH450-PH1800
Reliable laser pumping units that operate in quasi continous wave (QCW).
A cylindrical symmetry design allows rotation of the pumping chamber giving flexibility during the production and optimization of a laser system.
The pumping laser diode bars are mounted using our patented solder-free Clamping™ technology.
No mechanical stress Our patented solder-free technology is used in our diode bars stacks. Thanks to it clamped bars expand and contract freely during the thermal cicles of the pulsed regime avoiding mechanical stress.
