In doing so,
new magnetic structures are created.
Not exact matches
They discovered through neutron scattering experiments at BER II not only how the crystal
structure changes, but also uncovered
new magnetic phases.
His team is currently testing the sensitivity of the
new design to changes in
magnetic fields, and hoping that this
structure could be used for biosensing applications such as MEG.
Since Juno started orbiting Jupiter last July, it's revealed many
new, sometimes surprising insights into the planet's
structure, atmosphere, and
magnetic field.
My postdoctoral work had involved extending electronic
structure methods to study
magnetic systems — exactly what I needed to predict the properties of
new multiferroics.
«Using advanced nuclear
magnetic resonance spectroscopy, we were able to provide an unprecedented view of the internal
structure of the protein clumps that form in the disease, which we hope will one day lead to
new therapies.»
In fact, my postdoctoral training at Yale had involved extending existing electronic
structure methods so that they could be used to study
magnetic systems — exactly what I needed to predict the properties of
new multiferroics.
He points out that this
magnetic signal can be associated with large - scale processes of mountain formation, and how these ranges can be curved until they create
structures known as oroclines: «With a rock sample, we can analyse a process that has occurred on the tectonic plate level; and, specifically, offers
new data that allows us to discover how this orogeny or large Variscan range and its curvature occurred.
Researchers from Boston College and Harvard have created an elusive honeycomb -
structured material capable of frustrating the
magnetic properties within it in order to produce a chemical entity known as «spin liquid,» long theorized as a gateway to the free - flowing properties of quantum computing, according to a
new report in the Journal of the American Chemical Society.
The
new structures are a test bed for theories of low dimensional materials physics, but more practically, the optical manipulation of electron charge and
magnetic order can lead to
new modes of solar energy conversion and flexible, transparent computation devices.
Using the
new data from the research teams on the West Coast, Eisenbach and Kent were able to precisely model the measured atomic
structure, including defects, from a unique iron - platinum (FePt) nanoparticle and simulate its
magnetic properties on the 27 - petaflop Titan supercomputer at the OLCF.
However, using a
new technique known as sensitivity - enhanced nuclear
magnetic resonance (NMR), Whitehead Institute and MIT researchers have shown that they can analyze the
structure that a yeast protein forms as it interacts with other proteins in a cell.
The team benefitted from a
new capability that allowed them to integrate
magnetic resonance measurements and electronic
structure calculations to understand the
structure and dynamics of complex systems.
New details from the study show interactions between fast - moving particles and
magnetic fields similar to
structures seen on the Sun, other features seen to appear at multiple wavelengths, and
structures that may indicate features near the star before it exploded.
Go at a slower time of day and the golden
structure pulsates in the quiet; a glittering,
magnetic, and surreal monument to money on a little plot of grass in
New Orleans» most rapidly gentrifying neighborhood.