The foundation of particle diffraction experiments traces back to 1927, when George Paget Thomson revealed that electrons passing through a crystal grating produced diffraction patterns ...

Its uniform structure allowed precise diffraction patterns to emerge, reinforcing the idea that even the thinnest barriers ...

Laser-induced alignment boosts single-particle imaging by improving molecular orientation, enabling clearer 3D structure ...

The difference is that in a lycopodium powder diffraction, light gets diffracted from the edges of the tiny powder particle, creating irregular speckled pattern. When a focusing lens is placed in ...

In the laser diffraction particle analyzer a laser beam is focused on a sample. When the laser beam hits the particles this causes scattering of the light. This scattering is then measured whereby the ...

With its classical parallel beam laser diffraction set-up, HELOS provides a powerful method means of analyzing the particle size distribution of powders, granules, suspensions, emulsions, sprays and ...

The MYTOS laser diffraction sensor offers precise particle size analysis for dry products from 0.25 µm to 3,500 µm in both process environments and automated laboratories. It integrates the reputable ...

The instruments of this range boast an experience of over five decades. The world’s first laser diffraction particle size analyzer, the first-ever PSA, was invented in 1967. The PSA range of ...

A recent study explores how carbon black nanoparticles enhance laser absorption and thermal properties in polymer powders ...

Figure 3: Diffraction patterns from single objects differ from patterns of crystals consisting of repeats of those objects. Some of the first experiments planned for 2009 at LCLS will investigate ...