Read the story here. Advertise at Before It's News here.
Profile image
By Universe Today (Reporter)
Contributor profile | More stories
Story Views
Last hour:
Last 24 hours:

Magnetic Fields Help Shape the Formation of New Planets

% of readers think this story is Fact. Add your two cents.

In all of scientific modeling, the models attempting to replicate planetary and solar system formation are some of the most complicated.  They are also notoriously difficult to develop.  Normally they center around one of two formative ideas: planets are shaped primarily by gravity or planets are shaped primarily by magnetism.  Now a new theoretical model has been developed by a team at the University of Zurich (UZH) that uses math from both methodologies to inform the most complete model yet of planetary formation.

Scale is the problem causing the dichotomy between magnetic and gravitational models.  At grand scales, such as those of protoplanetary disks, gravity holds sway.  Dust and gas coalesce together to eventually form an early stage planet.  However, as they start to stick together, magnetism begins to take over.  

UT video showing an image of a very early stage planet.

As differently charged dust particles form electric (and therefore magnetic) fields when they rub into each other.  At the scale of individual planet formation, these magnetic forces are much stronger than the gravitational forces of dust upon other pieces of dust.  Magnetism therefore has much more of an impact on individual planetary formation rather than the solar system spanning gravitational forces.

An illustration of a protoplanetary disk. Planets coalesce out of the remaining molecular cloud the star formed out of. Within this accretion disk lay the fundamental elements necessary for planet formation and potential life. Credit: NASA/JPL-Caltech/T. Pyle (SSC) - February, 2005
An illustration of a protoplanetary disk. Planets coalesce out of the remaining molecular cloud the star formed out of. Within this accretion disk lay the fundamental elements necessary for planet formation and potential life.
Credit: NASA/JPL-Caltech/T. Pyle (SSC) – February, 2005

In order to combine these two disparate models, the UZH team had to utilize two modern tools: a new theoretical framework and a really powerful supercomputer.  The theoretical framework took into account the differences in scale between the two competing forces.  In particular Dr. Hongping Deng, now a postdoctoral researcher at the University of Cambridge, was able to meld together the period of time where the magnetic forces start to overtake the gravitational forces in terms of importance. One pleasing outcome of this framework is that it results in planets that are a similar size to those found in reality, in contrast to most existing current planetary formation models.

Another important factor in planetary formation is planetary migration – here’s a UT video discussing how planets move about their forming solar system.

Understanding that outcome would have been impossible if not for the second key tool in the researcher’s toolbox: a really good supercomputer.  The team chose to use the Piz Daint supercomputer as the Swiss National Supercomputing Center.  With its horsepower behind their modeling algorithm, the team was then able to flesh out the outcome that so closely models reality.  Using some nice visualization technology, they were also able to develop an animation, which can be seen in UZH’s press release, that visibly shows the outcome of the model over time.

Any additional insight into the world of planetary formation is welcome, even if it requires a lot of time spent developing an algorithm and running it on a supercomputer.  Exoplanet research, planetary geology, and even atmospheric science would all stand to benefit from a better understanding of how our and other worlds are formed.  If it happens to be by a complex combination of magnetic and gravitational forces, so much the better that we now have the computational power and a framework to truly grasp it.

Learn More:
UZH: A New Way of Forming Planets
Nature Astronomy: Formation of intermediate-mass planets via magnetically controlled disk fragmentation
UT: Astronomers See a Newly Forming Planetary Disk That’s Continuing to Feed On Material from its Nebula

Lead Image:
Artist’s impression of a the magnetic field lines in a protoplanetary disk.
Credit: Jean Favre, CSCS

The post Magnetic Fields Help Shape the Formation of New Planets appeared first on Universe Today.


Before It’s News® is a community of individuals who report on what’s going on around them, from all around the world.

Anyone can join.
Anyone can contribute.
Anyone can become informed about their world.

"United We Stand" Click Here To Create Your Personal Citizen Journalist Account Today, Be Sure To Invite Your Friends.

Please Help Support BeforeitsNews by trying our Natural Health Products below!

Order by Phone at 888-809-8385 or online at M - F 9am to 5pm EST

Order by Phone at 888-809-8385 or online at M - F 9am to 5pm EST

Humic & Fulvic Trace Minerals Complex - Nature's most important supplement! Vivid Dreams again!

HNEX HydroNano EXtracellular Water - Improve immune system health and reduce inflammation

Ultimate Clinical Potency Curcumin - Natural pain relief, reduce inflammation and so much more.

MitoCopper - Bioavailable Copper destroys pathogens and gives you more energy. (See Blood Video)
Oxy Powder - Natural Colon Cleanser!  Cleans out toxic buildup with oxygen! 
Nascent Iodine - Promotes detoxification, mental focus and thyroid health.
Smart Meter Cover -  Reduces Smart Meter radiation by 96%!  (See Video)

Immusist Beverage Concentrate - Proprietary blend, formulated to reduce inflammation while hydrating and oxygenating the cells.

Report abuse


Your Comments
Question   Razz  Sad   Evil  Exclaim  Smile  Redface  Biggrin  Surprised  Eek   Confused   Cool  LOL   Mad   Twisted  Rolleyes   Wink  Idea  Arrow  Neutral  Cry   Mr. Green

Load more ...




Email this story
Email this story

If you really want to ban this commenter, please write down the reason:

If you really want to disable all recommended stories, click on OK button. After that, you will be redirect to your options page.