q-switched Nd:glass laser 20j@351nm output pulse energy

q-switched Nd:glass laser with 20j@351nm output pulse energy

q-switched Nd:glass laser with 20j@351nm output pulse energy – Neodymium-glass laser with pulsed Q switching – High Energy Q-switched DPSS Nd:YAG Lasers

High-energy Q-switched DPSS (Diode-Pumped Solid-State) Nd:YAG lasers are known for their ability to deliver powerful, short pulses of light with precise control. These lasers are widely used in applications such as material processing, medical treatments, and scientific research due to their high peak power and efficiency. The Nd:YAG crystal, pumped by high-performance diodes, provides stable operation with excellent beam quality and minimal maintenance. Their Q-switching capability allows for ultra-short pulse durations, typically in the nanosecond range, making them ideal for tasks requiring precision and high energy output.

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Q-switched Nd:glass laser with 20j@351nm output pulse energy
Q-switched Nd:glass laser with 20j@351nm output pulse energy

A Q-switched Nd:glass laser with 20 J output at 351 nm pulse energy stands out

A Q-switched Nd:glass laser with 20 J output at 351 nm pulse energy stands out as a superior laser for several key reasons:

  1. High Pulse Energy: The 20 J output at 351 nm signifies a very high-energy pulse, making it ideal for applications that require significant energy in a single burst, such as material processing, laser fusion, or high-precision scientific experiments.
  2. Short Pulse Duration: The Q-switching mechanism allows for ultra-short pulse durations (in the nanosecond range), which concentrates the energy into a very brief moment. This short pulse duration enhances the laser’s ability to achieve high peak power, which is beneficial for processes like ablation, cutting, and engraving.
  3. High Efficiency: Nd:glass lasers are typically more efficient than other types of solid-state lasers, offering a high energy-to-power conversion ratio. Diode-pumped Nd:glass lasers also provide reliable, consistent performance with minimal maintenance.
  4. Wavelength (351 nm): The specific wavelength of 351 nm (near ultraviolet) is particularly useful for applications that require precise interaction with certain materials. It offers advantages for applications in spectroscopy, nonlinear optics, and precision material processing due to its ability to be more readily absorbed by specific targets compared to longer wavelengths.

These factors make the Q-switched Nd:glass laser with high pulse energy a better choice in demanding applications that require high precision, high energy output, and efficient performance.

Features:

  • Recognized for reliability by customers
  • Adjustable reflectivity output coupler for a low-divergence beam
  • Silent operation with no flashlamp firing sound
  • Remote control via keypad or any OS-based controller using REST API commands
  • Optional temperature-stabilized second and third harmonic generators
  • Includes a two-year warranty
  • Diode-pumped technology
  • Durable, sealed laser cavity design
  • Pulse energy of up to 190 mJ at 1064 nm
  • Pulse repetition rate of up to 100 Hz
  • Short pulse duration between 3 and 6 ns
  • Optional electromechanical shutter
  • Output window is easily replaceable

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Tags: Diode-Pumped Solid-StateHigh EfficiencyHigh Energy Q-switched DPSS Nd:YAG LasersHigh Pulse EnergyHigh-energy Q-switched DPSSNd:YAG lasersNeodymium-glass laser with pulsed Q switchingpowerfulPulse repetition rate of up to 100 HzQ-switched Nd:glass laser with 20j@351nm output pulse energyshort pulse durationshort pulses of light with precise control

high-powered and versatile laser

A Q-switched Nd:glass laser with 20 J output at 351 nm is a high-powered and versatile laser suitable for a variety of demanding applications. The specific wavelength (351 nm) and high pulse energy (20 J) make it particularly useful for:

  1. Laser-Induced Breakdown Spectroscopy (LIBS): This technique uses high-energy lasers to ablate materials and generate plasma, enabling the analysis of elemental composition. The 351 nm wavelength is effective for targeting materials and generating high-quality spectroscopic signals.
  2. Materials Processing and Laser Ablation: The high pulse energy and short duration make it ideal for precision cutting, engraving, and surface modification of materials like metals, ceramics, and semiconductors. The 351 nm wavelength also allows for efficient absorption in specific materials.
  3. Laser Fusion Research: In fusion energy experiments (e.g., inertial confinement fusion), such high-energy lasers are used to deliver intense energy pulses to fuel targets. The short pulse duration and high output energy can be used to achieve the necessary conditions for plasma compression and heating.
  4. Laser Surgery: High-energy, short-pulse lasers are used in certain medical treatments and surgeries, particularly in dermatology, ophthalmology, and urology. The 351 nm wavelength can be effective in breaking up kidney stones, treating certain eye conditions, or removing tumors with minimal thermal damage to surrounding tissues.
  5. Nonlinear Optics and Frequency Conversion: The 351 nm wavelength is also used for frequency conversion applications, including generating second and third harmonics, and in experiments that require ultraviolet radiation. This can be important in various research areas including quantum optics and high-precision laser experiments.
  6. Plasma Physics and High-Energy Research: In research focused on high-energy physics, a Q-switched Nd:glass laser with high pulse energy is used to create high-intensity laser-plasma interactions, enabling studies of phenomena such as shockwave propagation, plasma instabilities, and material properties under extreme conditions.

applications

These applications benefit from the combination of high energy, short pulse duration, and the ability to operate at the specific 351 nm wavelength, making the Q-switched Nd:glass laser a powerful tool in both industrial and scientific fields.

Please feel free to contact us at any time!

Call us now!

We are here in Israel serving Israeli customers.