How do solar wind particles get trapped in a planet's magnetosphere?

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Discussion Overview

The discussion revolves around how solar wind particles become trapped in a planet's magnetosphere, exploring the mechanisms involved, the role of magnetic fields, and the conditions under which these particles can breach the magnetopause. The scope includes theoretical aspects, conceptual clarifications, and some references to experimental observations.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • Some participants propose that solar wind particles travel along the Sun's magnetic field lines before switching to the planet's field lines, though the mechanism of this transition is unclear.
  • There is uncertainty about whether trapped particles remain supersonic, with one participant noting that solar wind particles can travel at speeds around 400 km/s.
  • Questions arise regarding the dominance of the Sun's magnetic field over charged particles outside the magnetopause, with a participant inquiring about the effects of stellar geysers on particle flow.
  • One participant references magnetic reconnection events, suggesting that these may allow wind particles to breach the magnetosphere, but the conditions under which this occurs are not fully understood.
  • Another participant discusses the concept of supersonic speeds in different media, noting that in plasmas, the implications of supersonic travel differ from those in neutral gases, potentially leading to shock formation and particle acceleration.

Areas of Agreement / Disagreement

Participants express various viewpoints on the mechanisms of particle trapping and the conditions affecting solar wind behavior, indicating that multiple competing views remain and the discussion is unresolved.

Contextual Notes

There are limitations in the discussion regarding the definitions of terms like "supersonic" in different media, as well as the specific conditions required for magnetic reconnection and its effects on particle behavior.

StephenPrivitera
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How do solar wind particles get trapped in a planet's magnetosphere? The particles travel along the Sun's magnetic field lines, right? And then they switch to traveling along the planet's field lines? How?

When they get trapped, are they still supersonic?

Is it correct to say that outside of the magnetopause, charged particles are dominated by the Sun's magnetic field?
 
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StephenPrivitera

How do solar wind particles get trapped in a planet's magnetosphere? The particles travel along the Sun's magnetic field lines, right? And then they switch to traveling along the planet's field lines? How?
Charged particles follow magnetic "lines of force", like the plasma shooting around in those nifty Tokomak reactors. I really have no idea about the maths involved, but I'd bet it would require a hell of a lot of energy for one of those particles to shoot straight through our magnetic field rather than be influenced by it.

http://science.msfc.nasa.gov/ssl/pad/solar/the_key.htm
http://www.csee.usf.edu/~agage/amgtorus.html

When they get trapped, are they still supersonic?
Supersonic? In space? Well, they're fast. 400 km/s, or so says a NASA page I just looked at.


Is it correct to say that outside of the magnetopause, charged particles are dominated by the Sun's magnetic field?
I have a question about this too. Stars tend to shoot out huge streams of charged particles out the poles, more than in other directions. What effects do these geysers have on the flow of charged particles in other directions?
 
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From your first site,
"Because of this, electrons that orbit around a nucleus in one direction will have more energy than electrons that orbit about the nucleus in the opposite direction."
Is that right? What exactly is meant here by "energy"?

By supersonic, I meant faster than sound on the surface of the earth, or at least I assume that's what's meant. I've seen this a lot.

In my notes, it says, "when magnetic reconnection events occur, wind particles can breach the magnetosphere." Is this to say that without "reconnection" wind particles cannot pass the magnetopause?

What's the second link for?
 
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Sorry, I don't know anything about magnetic reconnection. I'm seriously sleepy now. I'll learn that myself later.

The link is to a picture of a Tokomak reactor. They're just funky. They always remind me of Death Stars.
 
By supersonic, I meant faster than sound on the surface of the earth, or at least I assume that's what's meant. I've seen this a lot.
AFAIK, in the context in which the word is used, it means 'faster than the speed of sound in that medium'.

Things are a little different in a plasma (such as the interplanetary medium) than in a neutral gas (such as the air down here on Earth), but the general idea is the same. If something is traveling 'supersonically', it will surely create shocks, and these can provide wonderful opportunities for accelerating charged particles in plasmas. This is one of the mechanisms believed to be responsible for creating a significant fraction of the cosmic rays; the shock fronts in this case being where the expanding shell from a supernova crashes into the much cooler interstellar medium.
 

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