A newly developed technique uses a Bessel beam to extend the focus of optical coherence microscopy, allowing for a detailed ...
Alongside carbon dioxide, methane is a key driver of global warming. To detect and monitor the climate pollutants in the ...
This article explores the journey of light-sheet microscopy, highlighting three decades of innovation fueled by advancements ...
To create the chip, researchers used an integrated optical phase array, which contains microscale antennae that are ...
The idea that tumour shapes determine cancer cell behaviour was a serendipitous discovery for Kheiri. When he was optimizing ...
Food systems are complex materials, displaying diverse soft matter behaviors that are often dependent on their microstructure ...
Dr. Andre Koernig discusses the evolving capabilities of atomic force microscopy (AFM), highlighting its applications in ...
Hope Center for Neurological Disorders, Washington University School of Medicine, St. Louis, USA ...
From the realm of the abstract to the tangible, the new assistant professor at the Institute of Science and Technology ...
As modern microscopy evolves, autofocus is a critical requirement for many applications. However, for end users, ...
The tiny device uses a tightly focused beam of light to capture and manipulate cells. MIT researchers have developed a miniature, chip-based “tractor beam,” like the one that captures the Millennium ...
The scientists hope to use the new perspective to better gauge "novel mechanical, electrical, or optical properties" of the materials being studied. More sustainable plastics could be developed with ...