MKS Instruments, Inc., a global provider of technologies that enable advanced processes and improve productivity, has announced the release of Ophir® BeamPeek™ Software for field technicians, easy-to-use laser beam analysis software for fast, accurate, real-time measurement of lasers in additive manufacturing chambers.
One of the shortest signals ever created by humans was created by physicists at the University of Konstanz.
The work of Australian laser fusion energy company HB11 Energy has been celebrated in a Special Issues edition of the Laser and Particle Beams journal, showcasing research from a newly-formed HB11 Energy-led consortium of the world’s most advanced laser fusion researchers.
Luxinar, a leader in the field of laser manufacturing, is proud to celebrate its 25th anniversary at Laser Korea in Seoul, from 5-7 July.
LASER COMPONENTS offer the FLEXPOINT® MVstereo for us in applications such as machine vision, gesture recognition, depth sensing and volume measurement.
LASER COMPONENTS’ partner, Haas Laser Technologies, has further improved the measurement accuracy of its beam analysis tool BWA-MON. The revised optical design ensures that the diffraction index – M2 – can be determined for even a single laser pulse.
It is possible to gain deep insights into the tiniest details of materials and could envision them with the help of electron microscopes, for instance, the structure of solids, molecules, or nanoparticles with atomic resolution.
As far as both temporal and spectral domain has been concerned, multi-wavelength femtosecond pulses coming with adaptable tunability have been extensively preferred as a result of their possible applications in regulating powerful electron dynamics, field ionization, and high-order harmonic generation.
With an improved optical design and the broadband monitoring of production processes, LASER COMPONENTS has succeeded in further optimising the tolerances of polarisation-independent beam splitters.
3D printing technology creates objects by adding molten plastic or metal layers, but this technique is limited to larger sizes. Scientists have questioned how to manufacture microdevices that cannot be produced using layering and whether it is conceivable to directly print inside a pre-existing three-dimensional material.