Gap-free Information Transfer in 4D-STEM via Fusion of Complementary Scattering Channels

This article likely discusses a new method in 4D-STEM (4D Scanning Transmission Electron Microscopy) to improve data acquisition by combining different scattering channels. The goal is to obtain more complete information, overcoming limitations caused by data gaps. The use of 'fusion' suggests a data integration or processing technique.

• •Focuses on improving data acquisition in 4D-STEM.
• •Employs a fusion approach to combine complementary scattering channels.
• •Aims to eliminate data gaps and obtain more complete information.