A high-power laser shutter is an essential device designed for precise and rapid control over laser beams that operate at power levels in the hundreds of watts range. With its ability to manage intense energy outputs, the high-power laser shutter plays a critical role in safety and efficiency for various high-stakes applications. These shutters work by blocking or allowing the laser beam to pass through with remarkable speed and accuracy. This makes them indispensable in environments where exact timing and controlled exposure are non-negotiable.
High-power laser shutters are integral to scientific research and experimental setups. These types of lasers are used in applications such as spectroscopy, material analysis, and microscopy operate within controlled parameters. The shutter’s rapid response allows for fine-tuning of exposure times, safeguarding both the precision of results and the longevity of expensive laboratory equipment. Additionally, these shutters are designed to handle sustained high-power output, often incorporating advanced thermal management features to mitigate the heat generated during intense operation cycles.
In medical applications, high-power laser shutters are needed for laser surgeries, photothermal therapies, and advanced diagnostic procedures. They prevent unintended laser exposure, enabling clinicians to focus precisely on targeted areas. This improves overall treatment accuracy and patient safety. In such high-precision applications, the shutters’ ability to deliver and withhold laser energy at exact moments is vital in achieving successful outcomes and minimizing risks.
Industrial settings also benefit immensely from high-power laser shutters, especially in applications like cutting, welding, and engraving. By controlling the duration and intensity of laser exposure, these shutters help maintain consistent quality in processed materials, reducing defects and ensuring precise energy application. The durable construction of high-power laser shutters, often featuring robust materials and cooling systems, makes them capable of withstanding the harsh environments common in manufacturing.
Modern high-power laser shutters come with integrated control systems, allowing them to interface with automated processes and synchronize with laser systems. This integration enhances operational efficiency, offering users not only safety but also streamlined control for complex processes. In summary, a high-power laser shutter is a vital component in applications that demand both high performance and high safety, providing essential protection and precise control across scientific, medical, and industrial fields.
LST4WBK2 Laser Shutter Features
Optical Power Handling: 50 W
Aperture: 4 mm
Switching Speed: 10 ms
Logic Position Sensors
Optics: Metal or Dielectric
LST400 Laser Shutter Features
Optical Power Handling: 50 W
Aperture: 8 mm
Switching Speed: 20 ms
Logic Position Sensors
Optics: Metal or Dielectric
LST500 Laser Shutter Features
Optical Power Handling: 100 W
Aperture: 15 mm
High Rep Rate: 10 - 15 Hz
High LIDT: up to 2 J/cm2
Optics: Metal or Dielectric
LST800 Safety Interlock Shutter Features
Optical Power Handling: 300 W
Aperture: 16 mm
Switching Speed: 50 ms
LSTXYW8 Upgrade
Optics: Metal or Dielectric