Computational imaging fuses physical wavefront modulation with algorithmic reconstruction to surpass the limitations of conventional optical and microwave systems. Metasurfaces—two-dimensional ...
Computational ghost imaging encompasses a suite of indirect imaging methods that reconstruct spatial or temporal scenes from correlations between known illumination patterns and intensity measurements ...
Scientists have unveiled a new way to capture ultra-sharp optical images without lenses or painstaking alignment. The approach uses multiple sensors to collect raw light patterns independently, then ...
Imaging technology has transformed how we observe the universe—from mapping distant galaxies with radio telescope arrays to unlocking microscopic details inside living cells. Yet despite decades of ...
Computational microscopy is vital in biomedicine and materials science. Traditional methods struggle with optical aberrations, noise interference, and differences between physical models and ...
Cross-domain Cross-domain knowledge transfer from large-scale natural-scene video datasets into holographic microscopy enables reconstruction of fast biological dynamics at millisecond time scale.
Some results have been hidden because they may be inaccessible to you
Show inaccessible results