This finding opens the door to understanding
the role of magnetic fields in some of the most powerful events in the universe.
A study led by a researcher at the IAC and published today in Nature Astronomy points to
the role of the magnetic field as responsible for decelerating the formation of massive stars in the center of galaxies.
Study points to
the role of the magnetic field as responsible for decelerating the formation of massive stars in the center of galaxies.»
The research activity of our group «Interstellar Medium: star and planet formation» is focused in the early stages of the star and planet formation process, with special emphasis on
the role of magnetic field at different scales.
Not exact matches
A research team in India has developed a set
of numerical computations to shed light on this phenomenon, and present this week in Physics
of Plasmas, from AIP Publishing, analysis examining the
role of chaotic
magnetic fields in potential heating mechanisms.
«We now know that the lack
of a protective
magnetic field and the differing planetary rotation rates also play a
role in ensuring that many
of the atmospheric processes we observe on Earth occur at a much faster rate on Venus.
Then there's the even greater problem
of protecting the body from cosmic radiation — a
role Earth's natural
magnetic field does for us quite nicely.
The origin
of these jets is still unknown, although strong
magnetic fields are suspected to play a
role.
Images
of the sun in the far ultraviolet and in X-rays (acquired most recently by the Solar and Heliospheric Observatory spacecraft, the Yohkoh satellite, and the NIXT rockets) show that the heating
of the corona is localized in solar active regions, which indicates the important
role played by the
magnetic field.
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.
Since the wave energy can not go inside the vertical
magnetic fields, which also play a
role in separating the high and low energy electrons, the low temperature electrons can be obtained downstream
of the vertical
magnetic fields.
If this is so, the
magnetic field must have played an important
role in the evolution
of the Universe.
In contrast, flies without Cry receptors did not show a preference for the
magnetic field under any light condition, providing some
of the first experimental evidence that cryptochrome plays an important
role in sensing
magnetic fields, the researchers report online this week in Nature.
It also has been proposed that
magnetic fields play an important
role in the very separation
of the cores from their envelopes.
Magnetic fields play a
role in the lives
of stars from before they are born until after they die.
Kate also played a key leadership
role in both the experiments and the manipulation
of the data sets in a program
of neutron and x-ray diffraction measurements in very high, pulsed
magnetic fields.
The achievement is giving them important new clues about a problem at the frontiers
of cosmology — the nature and origin
of the
magnetic fields that play an important
role in how galaxies develop over time.
«Just how large this
role is, must still be investigated, since, according to our latest knowledge on the variations
of the solar
magnetic field, the significant increase in the Earthâ??
«Just how large this
role is, must still be investigated, since, according to our latest knowledge on the variations
of the solar
magnetic field, the significant increase in the Earth's temperature since 1980 is indeed to be ascribed to the greenhouse effect caused by carbon dioxide,»
We show that the index commonly used for quantifying long - term changes in solar activity, the sunspot number, accounts for only one part
of solar activity (William: Closed
magnetic field) and using this index leads to the underestimation
of the
role of solar activity in the global warming in the recent decades.
The CLOUD project at the European Center for Nuclear Research is probing the Svensmark - Shaviv hypothesis on the
role of cosmic rays modulated by the solar
magnetic field on the low cloud coverage; the first and encouraging results have been published in Nature.
All that has now been proven is that it is the
magnetic field of the sun that plays a
role in cloud formation.
The key to this understanding are the concepts
of a «torque» and the
of natural power
of «swirling vortices» as these phenomena that relate to the
role of the atmosphere, the oceans, the Earth's «molten outer core,» and formation
of Earth's
magnetic field on climate change.