Custom Calorimeter 351nm Rectangular Aperture

Specifications

Aperture Shape: Rectangular
Aperture Size (larger Dimension): 427 mm
Spectral Range: 1053 nm, 532 nm, 351 nm
Calibration Uncertainty: ±3%
Repeatability: better than ±2%
Beam Energy: 16 kJ
Aperture Size: 420 x 427 mm
Pulse Energy Density: more than 15 J/cm²
Minimum Beam Energy: 50 mJ
Wavelength Range: 190 nm to 25 microns
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Features


  • OUTSTANDING SIGNAL TO NOISE RATIOS

  • HIGH SENSITIVITY

  • VACUUM COMPATIBILITY

  • ATTENTION TO DETAIL AND WORKMANSHIP

Applications


  • Laser Fusion Experiments: Inertial confinement fusion (ICF) involves initiating nuclear fusion reactions by heating and compressing a fuel target, typically a pellet containing a mixture of deuterium and tritium. High-energy beams of laser light deliver energy to the outer layer of the target to compress and heat the fuel, replicating the energy generation process of the sun's core.

  • High Energy Inertial Confinement Fusion Calorimetric Measurement: Gentec-EO calorimeters are used in high energy inertial confinement fusion experiments, providing reliable solutions for measuring the largest and highest energy laser beams.

  • Extreme Energy Measurement: With calibration uncertainties of ±3% and repeatabilities better than ±2% for very large beams, Gentec-EO calorimeters offer the best solution for extreme energy measurement and balancing in multi-laser systems.

  • Large Aperture Measurement: Designed for beams as large as 420 x 427 mm in aperture size, Gentec-EO calorimeters withstand pulse energy densities of more than 15 J/cm².

  • Delicate Applications: Provides highly sensitive, large-aperture size calorimeters for beam energies as low as 50 mJ.

  • Wide Spectral Range: Calorimeters span the band from 190 nm to 25 microns, with the capability to push these limits further.