«Multiresponsive nanosurfactant constructs tiny chemical factory: New integrated surfactant made with nanoparticles is
manipulated by magnetic field, electric field, and light.»
Plasmas, being composed of charged particles (some with very high velocities), can be
manipulated by magnetic fields.
Not exact matches
Previously it has been shown that the chirality can be
manipulated by applying
magnetic fields to complicated nanowire geometries, but the use of
magnetic fields is wasteful of energy and limits the ability to address individual domain walls selectively.
In the course of their research into the use of
magnetic domain walls (local regions of
magnetic «charge» usually driven
by magnetic fields) to increase our capacity for information storage and logical processing, physicists at the University of Nottingham have discovered a phenomenon which has allowed them to «
manipulate» the structure of a
magnetic domain wall.
By manipulating magnetic and electromagnetic
fields, they flipped the electron's orientation, changing the vibration frequency of the cantilever.
The
magnetic field gradient produced
by a vortex proved sufficient to
manipulate spins just nanometers apart.
«The chains allow us to
manipulate the polymer remotely as a soft robot
by controlling a
magnetic field that affects the chains of
magnetic particles», says Joe Tracy, an associate professor of Material Science and Engineering from the North Carolina University.
This allows you to
manipulate the quantum potential
field discovered
by David Bohm and Yakir Aharanov through their experiments in which they shielded the
magnetic field, and the electron was still affected, it still moved and phase shifted, through the use of the potentials, which are physically real and usable.
Undulators, with small and low
field bending, create a narrower radiation cone with more intense beam, with selected wavelengths or harmonics, which can be tuned
by manipulating the
magnetic field of the device
by changing the gap.