Not exact matches
Other
effects, such as light scattering
from cosmic dust and the synchrotron radiation generated by electrons moving around galactic
magnetic fields within our own galaxy, can also produce these polarisation twists.
It comes in a big variety of colors and
effects from magnetic to UV light reactive.
Researchers
from the Hockey Concussion Education Project, an independent collaboration of specialists
from Canada and the United States, examined the
effects of concussions on 45 male and female Canadian university hockey players through
magnetic resonance imaging (MRI) analyses done on players before, during and after a single hockey season.
Roger Haagmans, ESA's Swarm mission scientist, explained, «It's astonishing that the team has been able to use just two years» worth of measurements
from Swarm to determine the
magnetic tidal
effect from the ocean and to see how conductivity changes in the lithosphere and upper mantle.
Now, scientists using the European Southern Observatory's (ESO) Very Large Telescope (VLT) say they may have observed this
effect in the light coming
from a neutron star — a cosmic object with a very strong
magnetic field.
In general, if the charged particles
from a CME hit Earth's magnetosphere head on and the ejection has a strong
magnetic field pointing south, then the disruptive
effects are greater, Gombosi says.
The result is a kind of step - by - step choreography detailing how the auroras move, showing the complexity of these auroras and how scientists can connect an outburst
from the sun and its
effect on the
magnetic environment at Saturn.
For my doctoral thesis I investigated
effects of the particular
magnetic field shape
from different experiments, such as WENDELSTEIN 7 - X, on this drift instability and turbulence.
«Most surprising is that the blast wave was still strong enough to cause significant
effects in the atmosphere of Saturn, which is nearly a billion miles
from the sun and has a
magnetic field much larger than Earth's,» says Ed Stone of Caltech, chief scientist of NASA's Voyager program.
Earth's
magnetic field and atmosphere protect us on the ground
from most of the harmful
effects of space weather, but astronauts in low - Earth orbit — or even, one day, in interplanetary space — are more exposed to space weather, including bursts of fast - moving particles called solar energetic particles, or SEPs.
Two years ago, Prof. Andrei Pimenov and his team at the Institute of Solid State Physics of TU Vienna, together with a research group
from the University of Würzburg, managed to achieve a massive Faraday
effect as they passed light through special mercury telluride platelets and applied a
magnetic field.
The $ 700 million Gravity Probe B satellite, launched in 2004, contained four nearly perfectly spherical gyroscopes isolated
from all outside influences —
magnetic fields, friction, gravity — leaving them exposed only to relativistic
effects.
A better understanding of the structure of Earth's inner core would clarify its role in locking the planet's
magnetic field in its north - south position, which has the
effect of insulating terrestrial life
from a lethal bombardment of cosmic rays.
The largest of these eruptions cause what is known as space weather — the radiation, energetic particles and
magnetic field releases
from the Sun powerful enough to cause severe
effects in Earth's near environment, such as the disruption of communications, power lines and navigations systems.
The overall
effect is that of a
magnetic field that appears to travel
from one point to another through a dimension that lies outside the conventional three dimensions.
They combined observations in the visible and the near infrared
from the Hubble Space Telescope with radio observations
from the Very Large Array and the Submillimeter Array to explore the
effect of the turbulence, stellar radiation, and
magnetic field on massive star formation in the galaxy's nuclear ring.
Under the floor is a
magnetic trackway built
from materials filtered
from industrial effluent by a process designed to ensure that the people of Japan will never suffer
from the
effects of heavy metal pollution again.
The total energy in these particles is insignificant compared to the energy in the form of light
from the sun, so the variation of the
magnetic field will not have a direct
effect on Earth climate.
Imagine being able to monitor the progress of an entire solar storm
from the time it erupts
from our sun until it sweeps past our small planet
effecting enormous changes in our
magnetic field.
This implies that even planets in modestly inclined orbits can avoid a lot of the worst
effects of CMEs or indeed miss them all together, certainly experiencing both dimished numbers and
effects though, irrespective and probably much greater than any additional protection they might gain
from an indigenous
magnetic field.
Although this article is very much dominated by planetary
magnetic fields and their potential shielding
effect from CMEs (with limitations), a rather more important and somewhat understated but positive corollary is that there is a specific area for CME generation (as opposed to uniformally about the star) roughly centred onthe stellar Equatorial area.
Jupiter's giant, spectacular polar aurorae are created by the
effects of the
magnetic field of the planet combining with gases
from the volcanic moon Io.
This superstrong
magnetic field produces
effects that distinguish magnetars
from other neutron stars.
Current research includes spin relaxation and decoherence in quantum dots due to spin - orbit and hyperfine interaction; non-Markovian spin dynamics in bosonic and nuclear spin environments; generation and characterization of non-local entanglement with quantum dots, superconductors, Luttinger liquids or Coulomb scattering in interacting 2DEGs; spin currents in
magnetic insulators and in semiconductors; spin Hall
effect in disordered systems; spin orbit
effects in transport and noise; asymmetric quantum shot noise in quantum dots; entanglement transfer
from electron spins to photons; QIP with spin qubits in quantum dots and molecular magnets; macroscopic quantum phenomena (spin tunneling and coherence) in molecular and nanoscale magnetism.
Mars, too, once had a strong
magnetic field, produced by a dynamo
effect from its interior heat.
Activated charcoal has a
magnetic effect that draws impurities and toxins
from congested pores.
Neuroanatomy and brain structure volumes of a live California sea lion (Zalophus californianus)
from magnetic resonance images: utility in determining
effects of domoic acid.
concluded
from magnetic satellite measurements that the heat fluxes below the ice are anything but uniformal and (should) have a major
effect on ice modelling in the future.
15 year lag is well known natural
effect The 15 years lag is nothing to do with CO2, it is result of totally natural process, since this is exactly the delay between geomagnetic signal (simply derived
from the combined sun - Earth
magnetic field changes and the AMO: http://www.vukcevic.talktalk.net//GSOc.htm Why is that?
However, we conclude that the imprint of this Modern Maximum (e.g. Earth climate forcing) would essentially result
from time - integration
effects (system inertia), since exceptionally high amplitudes of the solar
magnetic cycle can not be invoked anymore.
Some strange phenomenon acting through the
magnetic fields could, in principle, be involved and make such an
effect possible, but the evidence
from the fit is far too weak to make that likely in this case.
Combining the
effects from the known gravitational and
magnetic oscillations the graphic result is visually unexpected and may be somewhat disconcerting on the discerning viewer.
The analysis of the
effects of these
magnetic disturbances, occurring within the period 2006 — 2009 on ionospheric F2 - layer, showed significant departure of the main peak parameters
from the corresponding 27 - days running means.
During this prolonged solar minimum the earth's
magnetic field will be weaker then what it was during the Dalton or Maunder Minimums, which will compound solar
effects,
from this prolonged solar minimum period.
The reversal of
magnetic field strength
from one solar hemisphere to the other may have significant
effects on cosmic ray modulation, for example.
Any rise or major fluctuation in interior gradient could have profound and disruptive
effects on processes whose very properties are government by convective heat emanating
from the planet's outer core:
magnetic field propagation, tectonic plate movements, sea - floor spreading mechanics, and mantle plume activity.
And
magnetic effects on climate have almost no support
from evidence.
Magnetic field indices derived
from synoptic magnetograms of the Mt. Wilson Observatory, i.e.
Magnetic Plage Strength Index (MPSI) and Mt. Wilson Sunspot Index (MWSI), are used to study the
effects of surface magnetism on total solar irradiance variability during solar cycles 21, 22 and 23.
High solar activity means a stronger heliospheric
magnetic field and thus a more efficient screen against GCR, then under the hypothesis underlined above, the reduced GCR flux would promote less clouds amplifying the warming
effect expected
from high solar activity.
There is a discernible repeating pattern in the weather data, due to the Lunar declinational atmospheric tides that, also shows recognizable patterns of interference, that leaves the Earth homopolar
effects mechanism, modulated electromagnetically
from the
effects of Earth passing through the concentrated
magnetic field flux, extending
from the sun out to that outer planet, that defines the pattern of
magnetic field coupling of the solar wind into and through the magnetically permeable content of each planet.