Computational microscopy is vital in biomedicine and materials science. Traditional methods struggle with optical aberrations ...

A new "self-driving" microscope developed by UT Southwestern Medical Center researchers solves two fundamental challenges ...

A study by the Medical University of Vienna demonstrated that augmented reality (AR) in pediatric epilepsy surgery enhances ...

A new EMBL innovation dramatically improves Brillouin microscopy, enabling faster, more efficient 3D imaging of ...

Cellular metabolism plays a critical role in various physiological and pathological processes. High resolution imaging of ...

Researchers use high-resolution imaging to reveal the dynamic structure of biomolecular condensates, shedding light on their ...

Lightfield 4D overcomes these challenges by imaging entire 3D data sets at a precise moment in time, eliminating time delays ...

A new approach for Brillouin microscopy has improved the speed and throughput 1000-fold, offering a quicker method to explore ...

Traditional microscopy often relies on labeling samples with dyes, but this process is costly and time-consuming. To overcome ...

Biomolecular condensates are shifting blobs in our cells that organize cellular matter. They are distinct molecular ...

Merging some esoteric physics principles with an advanced instrument creates a magnetic microscope with resolution better ...

The global photoacoustic microscopy market is on a strong growth trajectory, with projections indicating a significant rise in market value. By 2024, the market is expected to reach USD 120 billion, ...