All Categories
Solid State Lasers

FILTER PRODUCTS

to
to
to
to
to
  1. Home
  2. Lasers
  3. Solid State Lasers
  4. Lamp-Pumped

FILTER PRODUCTS

to
to
to
to
to

Lamp-Pumped

Litron LPY742-100 Lamp-Pumped Solid State Laser
Litron Lasers
Add to watch list
Litron LPY742-100 Lamp-Pumped Solid State Laser
Compare
The LPY series of pulsed Nd:YAG lasers was designed to suit almost any industrial or research application requiring a high-energy or high-specification Nd:YAG laser. A ‘no-compromise’ design approach is evident in the build quality, a parameter that sets these lasers well apart from any of their competitors. The ...

Specifications
Wavelength: 355 nm
Pulse Energy: 70 mJ
Pulse Energy Stability: 4 %
Pulse Duration: 18 ns
Repetition Rate: Not Specified
Data Sheet
Inquire Price
Litron LPY604T-10 TEMoo Lamp-Pumped Solid State Laser
Litron Lasers
Add to watch list
Litron LPY604T-10 TEMoo Lamp-Pumped Solid State Laser
Compare
The LPY series of pulsed Nd:YAG lasers was designed to suit almost any industrial or research application requiring a high-energy or high-specification Nd:YAG laser. A ‘no-compromise’ design approach is evident in the build quality, a parameter that sets these lasers well apart from any of their competitors. The modular ...

Specifications
Wavelength: 1064 nm
Pulse Energy: 80 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 10 ns
Repetition Rate: Not Specified
Data Sheet
Inquire Price
Litron LPY642T-10 TEMoo Lamp-Pumped Solid State Laser
Litron Lasers
Add to watch list
Litron LPY642T-10 TEMoo Lamp-Pumped Solid State Laser
Compare
The LPY series of pulsed Nd:YAG lasers was designed to suit almost any industrial or research application requiring a high-energy or high-specification Nd:YAG laser. A ‘no-compromise’ design approach is evident in the build quality, a parameter that sets these lasers well apart from any of their ...

Specifications
Wavelength: 355 nm
Pulse Energy: 80 mJ
Pulse Energy Stability: 4 %
Pulse Duration: 10 ns
Repetition Rate: Not Specified
Data Sheet
Inquire Price
Litron LPY787-10 Lamp-Pumped Solid State Laser
Litron Lasers
Add to watch list
Litron LPY787-10 Lamp-Pumped Solid State Laser
Compare
The LPY series of pulsed Nd:YAG lasers was designed to suit almost any industrial or research application requiring a high-energy or high-specification Nd:YAG laser. A ‘no-compromise’ design approach is evident in the build quality, a parameter that sets these lasers well apart from any of their competitors. The modular ...

Specifications
Wavelength: 532 nm
Pulse Energy: 1000 mJ
Pulse Energy Stability: 3 %
Pulse Duration: 10 ns
Repetition Rate: Not Specified
Data Sheet
Inquire Price
Litron LPY7875-10 High Energy Lamp-Pumped Solid State Laser
Litron Lasers
Add to watch list
Litron LPY7875-10 High Energy Lamp-Pumped Solid State Laser
Compare
The LPY series of pulsed Nd:YAG lasers was designed to suit almost any industrial or research application requiring a high-energy or high-specification Nd:YAG laser. A ‘no-compromise’ design approach is evident in the build quality, a parameter that sets these lasers well apart from any of their competitors. The modular ...

Specifications
Wavelength: 1064 nm
Pulse Energy: 3500 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 10 ns
Repetition Rate: Not Specified
Data Sheet
Inquire Price
Litron LPY642T-30 TEMoo Lamp-Pumped Solid State Laser
Litron Lasers
Add to watch list
Litron LPY642T-30 TEMoo Lamp-Pumped Solid State Laser
Compare
The LPY series of pulsed Nd:YAG lasers was designed to suit almost any industrial or research application requiring a high-energy or high-specification Nd:YAG laser. A ‘no-compromise’ design approach is evident in the build quality, a parameter that sets these lasers well apart from any of their competitors. The modular ...

Specifications
Wavelength: 1064 nm
Pulse Energy: 250 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 10 ns
Repetition Rate: Not Specified
Data Sheet
Inquire Price
Litron Nano TRL 425-10 PIV
Litron Lasers
Add to watch list
Litron Nano TRL 425-10 PIV
Compare
Litron offers an extensive range of flashlamp pumped and diode pumped PIV laser systems with output energies of up to 1J per pulse and repetition rates of up to 200Hz for flashlamp systems and up to 20kHz for diode pumped systems. All of the systems are twin head devices, meaning that the PIV laser head contains two totally ...

Specifications
Wavelength: 532 nm
Pulse Energy: 425 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 7 ns
Repetition Rate: Not Specified
Data Sheet
Inquire Price
Litron Bernoulli B-PIV 200-15
Litron Lasers
Add to watch list
Litron Bernoulli B-PIV 200-15
Compare
The bernoulli™ PIV from Litron is the most advanced ‘plug and play’ PIV laser system available today. It benefits from Litron’s years of experience in this field and the expertise gained from being the World’s leading PIV laser manufacturer.

Specifications
Wavelength: 532 nm
Pulse Energy: 200 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 10 ns
Repetition Rate: Not Specified
Data Sheet
Inquire Price
Litron Nano L 145-15 PIV
Litron Lasers
Add to watch list
Litron Nano L 145-15 PIV
Compare
Litron offers an extensive range of flashlamp pumped and diode pumped PIV laser systems with output energies of up to 1J per pulse and repetition rates of up to 200Hz for flashlamp systems and up to 20kHz for diode pumped systems. All of the systems are twin head devices, meaning that the PIV laser head contains two totally ...

Specifications
Wavelength: 532 nm
Pulse Energy: 145 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 9 ns
Repetition Rate: Not Specified
Data Sheet
Inquire Price
Litron Nano L 200-15 PIV
Litron Lasers
Add to watch list
Litron Nano L 200-15 PIV
Compare
Litron offers an extensive range of flashlamp pumped and diode pumped PIV laser systems with output energies of up to 1J per pulse and repetition rates of up to 200Hz for flashlamp systems and up to 20kHz for diode pumped systems. All of the systems are twin head devices, meaning that the PIV laser head contains two totally ...

Specifications
Wavelength: 532 nm
Pulse Energy: 200 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 9 ns
Repetition Rate: Not Specified
Data Sheet
Inquire Price
Litron TRL 325-15 PIV
Litron Lasers
Add to watch list
Litron TRL 325-15 PIV
Compare
Litron offers an extensive range of flashlamp pumped and diode pumped PIV laser systems with output energies of up to 1J per pulse and repetition rates of up to 200Hz for flashlamp systems and up to 20kHz for diode pumped systems. All of the systems are twin head devices, meaning that the PIV laser head contains two totally ...

Specifications
Wavelength: 532 nm
Pulse Energy: 325 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 7 ns
Repetition Rate: Not Specified
Data Sheet
Inquire Price
Nano S 120-20 Laser
Litron Lasers
Add to watch list
Nano S 120-20 Laser
Compare
The Nano range allows a great deal of flexibility both in scientific and industrial applications. The output of these systems is multimode, however the telescopic resonators offer high energy beams with low divergences - comparable to those from unstable Gaussian coupled resonators but with a more uniform spatial profile, and a ...

Specifications
Wavelength: 1064 nm
Pulse Energy: 120 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 6 ns
Repetition Rate: Not Specified
Data Sheet
Inquire Price
Nano S 130-10 Laser
Litron Lasers
Add to watch list
Nano S 130-10 Laser
Compare
The Nano range allows a great deal of flexibility both in scientific and industrial applications. The output of these systems is multimode, however the telescopic resonators offer high energy beams with low divergences - comparable to those from unstable Gaussian coupled resonators but with a more uniform spatial profile, and a ...

Specifications
Wavelength: 532 nm
Pulse Energy: 65 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 6 ns
Repetition Rate: Not Specified
Data Sheet
Inquire Price
High Energy Nanosecond Nd:Glass LASER
Geola Digital Ltd
Add to watch list
High Energy Nanosecond Nd:Glass LASER
Compare
The GxJ series pulsed Nd:Glass lasers produce near-diffraction limited Single Longitudinal Mode (SLM) super-Gaussian radiation in the nanosecond regime having coherent output energy from 2 to >10 J per pulse. Laser design incorporates either Passive or Self-seeded E-O Q-Switched Single Longitudinal Mode (SLM) master ...

Specifications
Wavelength: 1053 nm
Pulse Energy: 1000 mJ
Pulse Energy Stability: 5 %
Pulse Duration: 25 ns
Repetition Rate: 0.008 – 0.01 Hz
Data Sheet
Inquire Price
Pulsed Nd:YAG Lasers Model LQ529
SOLAR Laser Systems
Add to watch list
Pulsed Nd:YAG Lasers Model LQ529
Compare
The LQ529 is a series of popular compact lamp-pumped Nd:YAG lasers offering uncompromising combination of the main parameters: high output power, exceptional beam quality and minimum laser head and power supply dimensions.   All the lasers of the LQ529 series are based on ring cavity and incorporate a pump chamber with ...

Specifications
Wavelength: 532 nm
Pulse Energy: 280 mJ
Pulse Energy Stability: 1.5 %
Pulse Duration: 10 ns
Repetition Rate: 1 – 30 Hz
Data Sheet
Inquire Price
EverGreen ² (70-200 mJ @ 532 nm)
Lumibird
Add to watch list
EverGreen ² (70-200 mJ @ 532 nm)
Compare
The EverGreen ² is the ideal laser for particle imaging velocimetry applications as it features precisely overlapped beams, designed to minimize correlation noise. The EverGreen ² allows the scientist to concentrate on the vector field results, not the laser. The EverGreen ² is a dual 532 nm laser system available with ...

Specifications
Wavelength: 266 nm
Pulse Energy: 30 mJ
Pulse Energy Stability: 3 %
Pulse Duration: 10 ns
Repetition Rate: 15 – 25 Hz
Data Sheet
Inquire Price
EverGreen ²
Quantel Laser by Lumibird
Add to watch list
EverGreen ²
Compare
The EverGreen ² is the ideal laser for particle imaging velocimetry applications as it features precisely overlapped beams, designed to minimize correlation noise. The EverGreen ² allows the scientist to concentrate on the vector field results, not the laser. The EverGreen ² is a dual 532 nm laser system ...

Specifications
Wavelength: 266 nm
Pulse Energy: 30 mJ
Pulse Energy Stability: 3 %
Pulse Duration: 10 ns
Repetition Rate: 15 – 25 Hz
Data Sheet
Inquire Price
Q-smart 850
Quantel Laser by Lumibird
Add to watch list
Q-smart 850
Compare
The Q-smart 850 is the new pulsed Nd:YAG laser from Quantel. Controlled by the Q-Touch pad, it is a high energy, cost-effective laser system. Building on the Brilliant’s modularity and superior beam geometry, the Q-smart laser offers additional user-friendly features. Intuitive touch screen interface Innovative, ...

Specifications
Wavelength: 1064 nm
Pulse Energy: 850 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 6 ns
Repetition Rate: 10 – 10 Hz
Data Sheet
Inquire Price
Q-smart (850 mJ)
Lumibird
Add to watch list
Q-smart (850 mJ)
Compare
The Q-smart 850 is the new pulsed Nd:YAG laser from Quantel. Controlled by the Q-Touch pad, it is a high energy, cost-effective laser system. Building on the Brilliant’s modularity and superior beam geometry, the Q-smart laser offers additional user-friendly features. Intuitive touch screen interface Innovative, hands-off ...

Specifications
Wavelength: 1064 nm
Pulse Energy: 850 mJ
Pulse Energy Stability: 2 %
Pulse Duration: 6 ns
Repetition Rate: Not Specified
Data Sheet
Inquire Price
LNF-2940 flashlamp pumped OEM laser head
Vigitek Inc.
Add to watch list
LNF-2940 flashlamp pumped OEM laser head
Compare
LNF series flashlamp-pumped pulse OEM laser heads operate in free-running mode with wavelengths 755, 1064, 1320, 1440, 1540, 2108 and 2940 nm and are designed for using in medical and industrial laser systems. Laser rods and flashlamps from the best manufacturers provide high efficiency and reliability. The use of ...

Specifications
Wavelength: 2940 nm
Pulse Energy: 5000 mJ
Pulse Energy Stability: Not Specified
Pulse Duration: Not Specified
Repetition Rate: 0 – 0 Hz
Data Sheet
Inquire Price

Lamp-Pumped Solid-State Lasers: High-Energy Light Sources for Diverse Applications

Lamp-pumped solid-state lasers are a category of lasers that utilize optical pumping via flashlamps or arc lamps to excite the gain medium, typically a crystalline or glass host doped with rare-earth ions such as neodymium (Nd), ytterbium (Yb), or praseodymium (Pr). This pumping method has been foundational in the development of high-power laser systems, especially before the advent of diode-pumped technologies.

Operating Principles

In lamp-pumped solid-state lasers, the pump source—either a flashlamp or an arc lamp—emits broad-spectrum light that is absorbed by the dopant ions in the gain medium. The excited ions then undergo radiative transitions, emitting coherent light at specific wavelengths. The design of the laser cavity, including the use of mirrors and optical coatings, helps to direct and amplify the emitted light, resulting in a high-intensity laser beam.

Advantages

  • High Pulse Energy: Lamp-pumped lasers can deliver high pulse energies, making them suitable for applications requiring intense light pulses.

  • Established Technology: The technology is well-understood and has been used in various applications for decades.

  • Cost-Effectiveness: Compared to diode-pumped systems, lamp-pumped lasers can be more cost-effective, especially for high-power applications.

Applications

  • Materials Processing: Used in cutting, welding, and engraving due to their high pulse energies.

  • Medical Procedures: Employed in certain surgical applications where high-intensity light is required.

  • Scientific Research: Utilized in spectroscopy and other research areas that require high-energy light sources.

Considerations

While lamp-pumped solid-state lasers offer high pulse energies, they also come with considerations such as lower efficiency and shorter lifespans of the pump sources compared to diode-pumped systems. Additionally, the broad emission spectrum of the pump sources can lead to thermal effects and spectral broadening in the output beam. Advancements in diode-pumped technology have addressed some of these issues, offering higher efficiency and more stable output.

Conclusion

Lamp-pumped solid-state lasers remain a vital technology in areas where high pulse energy and cost-effectiveness are paramount. Their continued use in various applications underscores their importance in the field of laser technology.

Did You know?

The first working laser, constructed by Theodore Maiman in 1960, was a ruby laser pumped with a flash lamp. Lamp-pumped lasers utilize laser pumping as the act of energy transfer from an external source into the gain medium of a laser. They are commonly used for applications demanding higher energies, as lamp-pumped lasers are able to generate very high pump powers. Additionally, lamp-pumped lasers offer low price per watt of generated power compared to laser diodes. They are also relatively sturdy and can handle voltage and current spikes.
Read more in our Blog
External links:
1 - Medical applications of YAG lasers
2 - Petawatt Lasers: History and Overview