Discover how a self-organizing “pencil beam” laser could allow for faster and more precise biomedical imaging.

Researchers developed a wearable device that can be used for non-invasive stroke risk assessment. The device uses speckle contrast optical spectroscopy to track changes in blood flow and volume in the ...

An international group of researchers from Sant'Anna School and Graz University of Technology, under the direction of Associate Professor Francesco Greco, has successfully converted the ink from a red ...

A laser phenomenon from MIT transforms chaotic light into a focused beam, enabling faster, high-resolution brain-interface ...

News-Medical.Net—University of Colorado Boulder researchers have developed a new miniature laser that could enable smaller, cheaper and more powerful biomedical imaging systems. The innovation ...

MIT researchers have discovered a way for chaotic laser light to self-organize into a stable 'pencil beam,' enabling 3D imaging of the human blood-brain barrier 25 times faster than current methods.

Removing bone tissue with a laser rather than a bone saw is a potential route to faster healing after surgery and reduced risk of contamination. The process, termed laser osteotomy, could eventually ...

At the end of the day, because of the techniques we utilized, we can apply these post-quantum cryptography primitives while ...

Recent breakthroughs are redefining 3D printing by integrating laser engraving and advanced material processing, enabling finer detail, stronger parts, and faster production cycles. Universities and ...

Darwin Quiroz is exploring new frontiers in miniature lasers with major biomedical applications. When Quiroz first started working with optics as an undergraduate, he was developing atomic ...