Researchers have built a deep-ultraviolet microscope to study hard-to-analyze materials like diamond, offering a new way to ...

At a macroscopic scale, techniques for inducing shear waves using an external mechanical vibration, an acoustic radiation pressure or a Lorentz force are reviewed along with imaging approaches ...

It's that time of year, when a strong winter storm might produce giant waves along Lake Superior shorelines that aren't ...

Ultrawide-bandgap semiconductors—such as diamond—are promising for next-generation electronics due to a larger energy gap ...

Minnesota researchers are looking at how to harness those forces and turn them into usable energy. Superior's waves can ...

Seeking to create a material that could dynamically change how it interacts with electromagnetic waves, the researchers took inspiration from the chameleon. The sticky-tongued reptile changes color by ...

Funded by Rohini Nilekani Philanthropies, Sci560 aims to demystify science and connect science with society. Unveiled on ...

A team of researchers at JILA, led by Professors Margaret Murnane and Henry Kapteyn, has developed a groundbreaking ...

A new 'beach' has been approved for the UK's largest wave park which will be based just 30 minutes from Coventry. Planning ...

A NEW mammoth ‘beach’ is set to welcome in punters at a £50million water attraction. Wave Park in Coleshill, Warwickshire is ...

"In practical terms, this means that sound waves at these frequencies do not propagate or disperse, leading to energy ...

Lord Kelvin theorized in 1880 that stimulating a thin vortex line would produce a helical deformation, later known as a ...