While radiation treatments designed to kill cancer cells have come a long way, scientists and doctors are always exploring ...

MRI machines rely on massive superconducting magnets and complex software to produce detailed images of our organs and ...

German physicists have overcome a long-standing limitation of magnetic field design by outperforming the famed Halbach array with a compact setup that delivers cheaper, stronger, and more uniform ...

Magnetic resonance imaging (MRI) scans produce detailed images of the organs and tissues in the body. Learn more about its uses here.

Magnetic resonance imaging (MRI) is a non-invasive biomedical imaging technique that uses a strong oscillating magnetic field to induce endogenous atoms such as hydrogen, or exogenously added ...

CT and MRI scans produce detailed images of the body. Learn the details and differences between CT scans and MRIs, and benefits and risks of each.

The effect of the shielding in a PET-MRI system was numerically estimated by calculating the RF magnetic field, B1, produced by a coil array of 4 independent elements at the resonant frequency of 171 ...

Now, let’s take a closer look at X-rays. This technology has been around much longer than MRI. It dates back to the late 1800s. For quite some time, it was the only non-invasive way for doctors to ...

Angular momentum is a fundamental quantity in physics that describes the rotational motion of objects. In quantum physics, it ...

One of those investigations involved a distinctive deep dive into studying the interior of the moon.

A new discovery reveals how a mysterious quantum spin excitation — a solitary spinon — can exist alone, hinting at advances in quantum technologies. Scientists from the Faculty of Physics at the Unive ...