One major obstacle when developing MR-guided proton therapy is the electromagnetic interactions between the MRI system and the proton therapy equipment. MRI scanners need highly homogeneous magnetic ...

One way to significantly enhance MRI signals is hyperpolarization. This achieves significant alignment of the signal-generating nuclear spins with the help of an external magnetic field.

Researchers at The University of Osaka have developed a novel method for generating ultra-high magnetic fields via ...

A precise measurement of a proton’s magnetic properties could help reveal subtle differences between matter and antimatter.

Researchers have found that the magnetic field of the MRI scanner decreased the BBB opening volume by 3.3-fold to 11.7-fold, depending on the strength of the magnetic field, in a mouse model.

Zeroing in on the proton's magnetic moment Date: May 28, 2014 Source: RIKEN Summary: As part of a series of experiments designed to resolve one of the deepest mysteries of physics today ...

Researchers at the Helmholtz-Zentrum Dresden-Rossendorf want to build the world's first prototype that tracks moving tumors with magnetic resonance imaging (MRI) in real time during proton therapy.

HIGH microwave frequencies may, with advantage, be measured by utilizing electron and proton paramagnetic resonances in a common magnetic field. For this purpose the free radical diphenyl ...

Using an applied magnetic field and a different sequence of RF pulses, the researchers were able to make a “spin-echo” measurement of the magnetic field near that single “reporter” spin. This ...

On January 9th, 2024, a scientific prototype for MRI-guided proton therapy was inaugurated in Dresden at OncoRay–National Center for Radiation Research in Oncology. With this installation, experts ...

Washington University in St. Louis researchers have found for the first time that the magnetic field of the MRI scanner decreased the BBB opening volume by 3.3-fold to 11.7-fold, depending on the ...