A team has made a major breakthrough in the field of three-dimensional (3D) imaging of large-scale biological tissues. They ...

XRM microscopy, combined with machine learning, revolutionizes materials research by enhancing imaging techniques for failure ...

Three-dimensional (3D) imaging is essential for investigating cellular structure and dynamics. Traditional optical methods ...

The FiLM-Scope surgical microscope utilizes 48 cameras and advanced algorithms to generate accurate 3D maps, improving depth ...

Optimizing the geometric parameters of polymer nanoantenna arrays significantly improves the performance of optical ...

For over a century, surgeons performing delicate procedures have relied on stereoscopic microscopes to gain a sense of depth. These tools mimic human vision by presenting slightly different images to ...

US researchers are developing an AI-powered microscope system that could make soil health testing faster, cheaper, and more ...

A new kind of computer – an analog optical computer – that has the potential to accelerate AI inference and hard optimization workloads by 100x, leveraging hardware-software co-design to improve the ...

Large-scale microscopy combined with tissue clearing and expansion enables nanoscale imaging of centimeter scale specimens.

Scientists hope this work can unlock breakthroughs in topics ranging from cancer to coral reefs. The post Scientists unveil state-of-the-art microscopic technologies appeared first on Talker.

A pioneering team at the University of Cambridge has showcased today (25 June) work that is revolutionising biological research with state-of-the-art microscope technologies. The team’s efforts are ...