Sentences with phrase «magnetic properties as»
Remember, the sun and moon have magnetic properties as well, and they are not just for light.
http://religion.blogs.cnn.com/ Not exact matches
(Magnets are attracted to other items with magnetic properties such as things made of iron or steel.)
The research was focused on a quantum property of the muon known as its magnetic moment, and it found...
Specifically, for a magnetic thin film deposited onto a transition metal oxide film, the magnetic properties change dramatically as the oxide undergoes a structural phase transition.
It may not seem like a material as thin as an atom could hide any surprises, but a research team led by scientists at the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) discovered an unexpected magnetic property in a two - dimensional material.
Each also has a weird property called spin: It behaves as if it were an infinitesimal revolving sphere with a magnetic field that aligns with the spin axis.
«With a broad range of physical properties — optical, electrical, optoelectronic, catalytic, magnetic, and sensing — that are dependent sensitively on their size and shape as well as their assemblies, the produced nanorods are of both fundamental and practical interest,» Lin said.
Again the Chinese knew as early of the 5th century of the attractive properties and direction - seeking ability of the lodestone and how to make steel behave similarly, though the magnetic compass was not used for navigation until perhaps as late as the 10th century.
Coauthor of the study, Viktor Struzhkin at the Carnegie Institution for Science, explained: «Our technique offers a powerful new tool for analyzing and manipulating electrons to advance our understanding of high - pressure superconductivity, as well as magnetic and electrical properties.»
Published by the Condensed Matter research group at the Nordic Institute for Theoretical Physics (NORDITA) at KTH Royal Institute of Technology in Sweden, the Organic Materials Database is intended as a data mining resource for research into the electric and magnetic properties of crystals, which are primarily defined by their electronic band structure — an energy spectrum of electrons motion which stem from their quantum - mechanical properties.
The conductivity and other transport properties as a function of disorder, temperature, and frequency point to a non-Fermi liquid - like behavior, whereas photoemission experiments and magnetic properties indicate the presence of a Fermi surface in momentum space.
Capture of all the transmitted electrons allows quantitative measurement of materials properties, such as internal electric and magnetic fields, which are important for use of the materials in memory and electronics applications.
As a step toward that goal, the NIST researchers demonstrated detection of digitally modulated magnetic signals, that is, messages consisting of digital bits 0 and 1, by a magnetic - field sensor that relies on the quantum properties of rubidium atoms.
As already stated, manganese atoms exhibit the most powerful magnetic properties.
To their surprise, the magnetic properties of BaFe2As2 changed as they stretched it.
They found that, as they had expected, the two unpaired electrons have aligned spins — the quantum - mechanical property that gives electrons a magnetic orientation.
Electrons also have a property known as spin; an electron can «spin up» or «spin down,» pointing like a tiny magnetic compass needle in one of two directions.
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.
Ultracold atoms in the so - called optical lattices, that are generated by crosswise superposition of laser beams, have been proven to be one of the most promising tools for simulating and understanding the behaviour of many - body systems such as solid crystals — for example with respect to their electric or magnetic properties.
Spintronics exploits the intrinsic spins of electrons and their resulting magnetic properties in material, as well as the electrons electrical charge, to store and process information.
Liu is exploring one approach, which stores data using quantum bits, or «qubits,» which use quantum properties such as magnetic spin to represent digital information.
Their unique optical and magnetic properties are used in various high - tech applications, such as motors, catalysts, light - emitting diodes and batteries.
That your digital material exists only as temporary magnetic states on the memory of a computer in the cloud does not necessarily mean that property rights should be open to question (30 March, p 34).
Previous work focused on the magnetic properties of transition - metal - doped TiO2 and ZnO as potential dilute magnetic semiconductors.
Throughout the course of this study, the teams compiled an extensive library of experimental and theoretical data including electronic, magnetic, optical, photoelectrochemical, and structural properties, which are now used as feedstock in material genome work and near - term development of superior PEC materials through materials - by - design techniques.
The researchers then used the three - dimensional coordinates of the atoms as inputs into quantum mechanics calculations to determine the magnetic properties of the iron - platinum nanoparticle.
The technique measures changes in the magnetic properties of blood as it transports oxygen to brain tissue in response to increased activity.
Future observations will make use of the Chandra telescope as well as ESA's XMN - Newton observatory in order to further unravel the secrets of Jupiter's magnetic properties.
A spectrograph spreads out the light gathered by a telescope so that it can be analyzed to determine such properties of celestial objects as chemical composition and abundances, temperature, radial velocity, rotational velocity, and magnetic fields.
We find that the influence of thermal polarization and dust grain alignment on the polarized emission displayed as spatially resolved polarization map or as spectral energy distribution trace disk properties which are not traced in total (unpolarized) emission such as the magnetic field topology.
One must consider the various effects that alter the measured polarized signal, such as the shape of dust grains, the efficiency of grain alignment, the magnetic field properties, a... ▽ More (Sub --RRB- Millimeter observations of the polarized emission of aligned aspherical dust grains enable us to study the magnetic fields within protoplanetary disk.
Oxides have wide - ranging properties, making them useful for electronic and magnetic technologies, as well as for photocatalysts, which use light to speed up chemical reactions.
Leigh's regular repertory player Lesley Manville makes an engaging contribution as Mary Somerville, a natural philosopher who believes in the magnetic properties of refracted light.
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The Sun's properties, such as its luminosity, are related to its magnetic field, though the connections are as yet not well understood.
I have sought the best empirical evidence to show how changes in incoming solar radiation, accounted for by intrinsic solar magnetic modulation of the irradiance output as well as planetary modulation of the seasonal distribution of sunlight, affects the thermal properties of land and sea, including temperatures.