The intensity is recorded at every orientation and the result is thousands of 2D diffraction patterns that correspond to different parts of the 3D structure. From here, a computational approach ...

A new research study from Opto-Electronic Advances discusses tailoring electron vortex beams with customizable intensity patterns by electron diffraction holography. In recent years, the ...

Using ultrahigh-intensity x-ray beams can cause the intensity of diffraction patterns from samples to drop Figure 1: An x-ray diffraction pattern obtained from a sample of Martian soil. X-ray ...

Figure 1: a) Stationary diffraction pattern of cBN powder, integrated over the Debye-Scherrer rings, measured with femtosecond x-ray pulses as a function of the diffraction angle 2θ. b) Transient ...

China presented a new label-free 3D microscopy technique, termed transport of intensity diffraction tomography with non-interferometric synthetic aperture (TIDT-NSA). A unified theoretical ...

This interference pattern appears in the shape of the orientation of the struts; these are the diffraction spikes we see. For example, in Hubble Space Telescope images, we typically see four ...

The only difference is that the centre of the diffraction pattern of a wire looks brighter. This is because the undiffracted portion of beam adds to the intensity of the centre of the pattern. Mount a ...

But because they are so short, the diffraction pattern can be recorded before a sample blows apart. Recent advances in XFEL technology have allowed a more than 1020-fold increase in the intensity of x ...