From galaxies to the Sun, new research explains how turbulent motion can produce large-scale magnetic fields that remain ...

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A UBC Okanagan-led research project has given a group of international scientists their clearest view yet of the Milky Way's magnetic field, revealing that it is far more complex than previously ...

All celestial bodies—planets, suns, even entire galaxies—produce magnetic fields, affecting such cosmic processes as the solar wind, high-energy particle transport, and galaxy formation. Small-scale ...

Astronomers have discovered powerful magnetic fields steering gas, dust, and star formation in a dramatic galaxy merger.

Atomic scale copper rich layers inside rare earth magnets suppress demagnetization, improving strength, stability, and efficiency in motors and generators.

We may finally know how the magnetic fields that now permeate the universe first arose. Much of the universe was once a churning unmagnetised plasma, and a new set of simulations shows how that plasma ...

A Czech and Spanish-led research team has demonstrated the ability to distinguish subtle differences between magnetic ground ...

The first commercially produced microscope to incorporate diamond nitrogen-vacancy (NV) centers for quantum technology is Qnami's ProteusQ™. It allows for atomic-level tabletop examination of magnetic ...

The treatment of gastrointestinal and urinary system diseases has long been plagued by limitations of traditional drug delivery methods, such as low drug concentration at target sites, lack of ...

The absence of standardized technologies for separating proteins or molecules from complex biomaterials has slowed the transition from research and development (R&D) to large-scale production. This ...