However, the ultra-high
magnetoresistance which has been measured in Twente was achieved without any magnetic materials.
Not exact matches
The larger the
magnetoresistance of a material, the smaller the magnetic signal to
which it can respond.
Physicists at the U.S. Department of Energy's Ames Laboratory compared similar materials and returned to a long - established rule of electron movement in their quest to explain the phenomenon of extremely large
magnetoresistance (XMR), in
which the application of a magnetic field to a material results in a remarkably large change in electrical resistance.
This diagram maps the temperature and magnetic field strength at
which the material's
magnetoresistance turns on and then saturates.
These perovskites display what is called colossal
magnetoresistance: their electrical resistance changes dramatically when exposed to a magnetic field,
which makes them ideal for high - capacity data storage.